224th ECS Meeting: Meeting Program by The Electrochemical Society

San Francisco Travel Association photo by Mark Gibson.

San Francisco Travel Association photo.

224 th

ECS MEETING

San Francisco Travel Association photo by P. Fuszard.

San Francisco, CA San Francisco Travel Association photo by Carol Simowitz.

October 27â&#x20AC;&#x201D;November 1, 2013 Hilton San Francisco

San Francisco Travel Association photo.

meeting program

ECS Officers and Board of Directors Officers Jeffrey Fergus, Chair, High Temperature Materials Division

Tetsuya Osaka, President Paul Kohl, Sr. Vice-President Daniel Scherson, 2nd Vice-President

Shinji Fujimoto, Chair, Corrosion Division

Krishnan Rajeshwar, 3rd Vice-President

Fernando Garzon, Past President Andrew Hoff, Chair, Electronics & Photonics Division

Hariklia Deligianni, Secretary Christina Bock, Treasurer

Paul Kohl, Sr. Vice-President

Roque J. Calvo, Executive Director

Oano Leonte, Chair, Dielectric Science & Technology Division

Board of Directors

Bor Yann Liaw, Chair, Battery Division

Christina Bock, Treasurer Gerardine Botte, Chair, Industrial Electrochemistry & Electrochemical Engineering Division James Burgess, Chair, Organic & Biological Electrochemistry Division

Robert Mantz, Chair, Physical & Analytical Electrochemistry Division Tetsuya Osaka, President and Board Chair Krishnan Rajeshwar, 3rd Vice-President Daniel Scherson, 2nd Vice-President

Roque J. Calvo, Executive Director

Stuart Swirson, Nonprofit Financial Professional

Michael Carter, Chair, Sensor Division John Collins, Chair, Luminescence and Display Materials Division Hariklia Deligianni, Secretary

Adam Weber, Chair, Energy Technology Division R. Bruce Weisman, Chair, Fullerenes, Nanotubes, & Carbon Nanostructures Division Giovanni Zangari, Chair, Electrodeposition Division

ECS Staff Roque J. Calvo, Executive Director

Heather McAlinn, Publications Production Assistant

Mary Yess, Deputy Executive Director and Publisher

Winnie Mutch, Web Manager

Dinia Agrawala, Interface Production Manager

Anna Olsen, Constituent Services Associate

Karen Chmielewski, Finance Associate

Karen Baliff Ornstein, Associate Director of Marketing

Paul Cooper, Editorial Manager

Stephanie Plassa, Director of Meetings and Exhibits

Dan Fatton, Director of Development

Elizabeth Schademann, Publications Production Assistant

Annie Goedkoop, Director of Publications Andrea Guenzel, Journals Publications Assistant Paul Grote, Director of Finance

Stacy Schlags, Meetings Coordinator Keith Schlesinger, Technical Programs Coordinator

Mary Hojlo, Constituent Services Assistant Colleen Klepser, Executive Administrator

Beth Anne Stuebe, Conference Publications Production Assistant

Christie Knef, Development Manager

Logan Streu, Publications Assistant

John Lewis, Associate Director of Conference Publications

All recycled paper. Printed in USA.

ECS â&#x20AC;&#x201D; The Electrochemical Society 65 South Main Street, Pennington, NJ 08534, USA 1.609.737.1902 ecs@electrochem.org l www.electrochem.org

224 th ECS MEETING featuring the

2013

San Francisco Travel Association photo by P. Fuszard.

San Francisco Travel Association photo.

2013 ECS Welcomes You to San Francisco

n behalf of the Officers, Board of Directors, and Staff of ECS, it is my pleasure to welcome you to the exciting city of San Francisco for the 224th ECS Meeting. Whether you are at an ECS meeting for the first time, or have had the privilege of attending many ECS meetings, we hope that your time in San Francisco will be a perfect opportunity to get together with colleagues and associates from around the world, discuss important research, and discover new initiatives. This major international conference at the Hilton San Francisco will include more than 50 topical symposia consisting of over 2,800 technical presentations, and feature the third international ECS Electrochemical Energy Summit (E2S), which is fast becoming a tradition at ECS meetings. You are invited to participate in the technical program as well as many other social events during six days of presentations and networking opportunities. E2S and ECS Short Courses help launch the meeting on Sunday, October 27. Tetsuya Osaka Two days of special events are devoted to E2S, with a featured symposium that explores the energy– ECS President water nexus, the intersection of two critical resource issues. Events on Sunday include an afternoon program with three invited speakers, all experts in energy issues, along with a dynamic Energy Research Group Showcase, a Poster Session, and a reception. E2S events on Monday will be devoted to the Energy–Water Nexus Symposium (A3), and The ECS Lecture. Presented by Professor Mark S. Wrighton, this plenary speech will address “America’s Energy Future: Science, Engineering, and Policy Challenges.” Other Monday highlights include the Olin Palladium Award Lecture, “Mathematical Modeling of Lithium Ion Cells and Batteries,” presented by Ralph E. White, and the Carl Wagner Memorial Award Lecture, by Marc T. M. Koper. Dr. Koper will speak on “Multiple Proton-coupled Electron Transfer in Electrocatalysis: Theory vs. Experiment.” We also hope you plan time to attend the Technical Exhibit and General Society and Student Poster Sessions. An added feature of this meeting is a special Meet & Greet Book Signing and Giveaway, celebrating the publication of Lithium Batteries, edited by Bruno Scrosati, K. M. Abraham, Walter van Schalkwijk, and Jusef Hassoun. Don’t miss your chance to chat with some of the editors and win a signed edition of this new ECS sponsored monograph – see your Meeting Registration badge sheet for details. This Meeting Program includes a wealth of information – please feel free to stop by the ECS Registration area if you have any more questions. P.S. Don’t forget – this meeting is wired! Download the ECS Meeting App from the Apple App Store or Android Market, and take advantage of the new Online Meeting Scheduler (see page 3 for details).

Program Guide ADA Accessibility................................................................2 Author Index.....................................................................244 Award Winners.............................................................. 10-15 Committees, Boards & Other Meetings................................7 Companion Registrant Program............................................3 ECS Student Chapters.........................................................29 ECS Committees.................................................................30 ECS Division Officers........................................................28 ECS Sections.......................................................................28 ECS Transactions for San Francisco 2013............................8 Editorial Boards..................................................................27 Electrochemical Energy Summit (E2S)........................ 16-17 Featured Speakers.................................................................9 Floor Plan............................................................................19 General Meeting Information...............................................8 Hotel Information..................................................................2 Key Locations.......................................................................2 Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Meeting App..........................................................................3 Meeting Events-at-a-Glance.................................................5 Meeting Overview................................................................6 Officers & Staff........................................ Inside Front Cover Photography and Recording..................................................2 Poster Sessions................................................................5, 30 Presenter Information..........................................................32 Professional Development Series.......................................32 Registration Hours................................................................2 Session Chair Information..................................................32 Short Courses and Tutorials................................................31 Special &Ticketed Events.....................................................6 Sponsors..............................................................................25 Symposium Topics and Organizers.....................................34 Technical Exhibit.......................................................... 20-24 Technical Sessions..............................................................36 Wireless Network..................................................................3 1

General Meeting Information and Meeting Registration

he 224th ECS Meeting will be held in the heart of San Francisco, at the meeting headquarters hotel, the Hilton San Francisco (333 O’Farrell Street, San Francisco, CA 94102). Key Locations in the Hilton San Francisco Hotel Meeting Registration................................... East Lounge, Ballroom Level

Information/Message Center...................... East Lounge, Ballroom Level ECS Headquarters Office..................... California Room, Ballroom Level AV Tech Table...........................Located outside select symposium rooms Technical Exhibit............................................................... Grand Ballroom

Registration Information Meeting Registration—The meeting registration area will be located in the Hilton San Francisco Hotel, in the East Lounge, Ballroom Level. Registration will open on Saturday evening and the technical sessions will be conducted Sunday through Friday. Registration Hours Saturday, October 26.................................................................1600-1900h Sunday, October 27...................................................................0700-1900h Monday, October 28..................................................................0700-1900h Tuesday, October 29..................................................................0700-1730h Wednesday, October 30.............................................................0800-1600h Thursday, October 31................................................................0800-1600h Friday, November 1...................................................................0800-1200h Lost Badge or Ticket There will be a $30 charge for reprinting lost badges or tickets. Admittance will not be granted to ticketed events without the actual ticket. Tickets must be reprinted at Registration during scheduled hours and cannot be reprinted at the event itself. ADA Accessibility Special accommodations for disabled attendees will be handled on an individual basis provided that adequate notice is given to the ECS headquarters office. Permissions Granted to ECS ECS reserves the right to electronically record any or all meetingrelated events. By registering for and/or attending an ECS meeting you are granting ECS permission to use any recording or photography made of you at any meeting event or anywhere within the meeting venue. Speaker Indemnification The ideas and opinions expressed in the technical sessions, conferences, and any handout materials provided are those of the presenter. They are not those of The Electrochemical Society (ECS), nor can any endorsement by ECS be claimed.

Meeting Registration Who must pay the registration fee? All meeting participants, including invited speakers, are required to pay the appropriate registration fees. Short Course registrants who wish to attend the meeting in addition to their Short Course are required to pay the meeting registration fee in addition to the Short Course fee. 2

Early-Bird Registration The deadline for Early-Bird registration is September 27, 2013. Regular registration rates are in effect online after September 27, 2013 and at the meeting. Register online at www.electrochem. org, or download the registration form from the website and fax your completed form to 1.609.737.2743. If you send a registration by fax, please do not send another copy by e-mail, as this may result in duplicate charges. Early-Bird and post-September 27th registration payments must be made in U.S. Dollars via Visa, MasterCard, American Express, Discover Card, check, or money order payable to ECS. Registration Fees ALL PARTICIPANTS AND ATTENDEES ARE REQUIRED TO PAY THE APPROPRIATE REGISTRATION FEE LISTED BELOW. Early-Bird Regular Rate ECS Member..................................................$450............................$550 Nonmember....................................................$620............................$720 ECS Student Member.....................................$160............................$260 Student Nonmember.......................................$195............................$295 One Day ECS Member..................................$280............................$380 One Day Nonmember....................................$370............................$470 Nontechnical Registrant.................................$ 25............................$ 30 ECS Emeritus or Honorary Member...............Gratis..........................Gratis Refunds Written requests for Registration refunds will be honored only if received by October 21, 2013. All refunds are subject to a 10% processing fee and requests for refunds must be made in writing and e-mailed to customer.service@electrochem.org. Refunds will not be processed until AFTER the meeting. Financial Assistance Financial assistance is limited and generally governed by the symposium organizers. Individuals may inquire directly to the organizers of the symposium in which they are presenting their paper to see if funding is available. Individuals requiring an official letter of invitation should write to the ECS headquarters office; such letters will not imply any financial responsibilities of ECS. ECS Meeting Abstracts Meeting Abstracts are always right at hand and as always, are FREE with registration. Registrants may easily access them through wireless Internet, which will be available at the meeting; view them on the ECS Meeting App; or download them directly from the 224th ECS Meeting website. Paper editions of meeting abstracts are no longer distributed; attendees who require paper should download the abstracts and print them in advance of the meeting.

Photography and Recording is not permitted— By attending the ECS meeting, you agree that you will not record any meeting-related activity, without the express, written consent from ECS. Recording means any audio, visual, or photographic methods. REC Meeting-related activity means any presentation (oral or poster) or social event directly related to the meeting. You may photograph your own personal, non-meeting related activity, but you must obtain permission from all involved parties before photographs can be taken of other people or displays at the meeting or exhibit. Press representatives must receive media credentials and recording permission from the ECS Headquarters Office. If you violate this policy, you will be removed from the meeting. Your registration will be revoked and you will lose all access to the meeting. In this case, you will not receive a refund of the registration fees. ECS also reserves the right to deny your attendance at future ECS or ECS sponsored meetings.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Travel Companions/Nontechnical Registrants

Travel companions of attendees are invited to register for the 224th ECS Meeting as a “Nontechnical Registrant.” The nontechnical registrant registration is $25 until September 27, and $30 after September 27, and includes admission to non-ticketed social events; use of an exclusive Get-Together Lounge with beverage service and light refreshments, Monday through Friday, 0800-1000h; and a special “Welcome to San Francisco” orientation presented by San Francisco Travel on Monday, October 28 at 0900h in the lounge. Please note that online registration is not available for Nontechnical Registrants. To register a Travel Companion/Nontechnical Registrant, please contact ECS Headquarters before the meeting, or stop by Registration at meeting.

Meeting Tools Online Meeting Scheduler! The Online Meeting Scheduler has been provided for your convenience and easy reference. It includes times and locations for all technical sessions, committee meetings, and special events, and can also be accessed from the meeting app! Visit the San Francisco website or meeting app to build your schedule now!

Wireless Network

ECS is pleased to provide a complimentary wireless network! For the duration of the meeting, ECS will be providing a wireless network for your use. This complimentary service is available in designated areas of the Hilton. To use the wireless network, please connect to “PrincetonAppliedResearch” and then open your Web browser. You will then be prompted to enter the password listed below. Network Name (SSID).................. PrincetonAppliedResearch Access Code.................................. connects (all lowercase) Other wireless Internet access is also available in some public areas of the Hilton. You will not need to log in to those networks as they are provided on a complimentary basis by the hotel, though you may be required to be a guest of the hotel to access them.

Have a Smartphone?

STAY CONNECTED with the

ECS Mobile APP! • Log-in! Your username is the e-mail address you used when you registered for the meeting. The password is the record number you received on your electronic receipt or when you picked up your registration materials. • Schedule presentations and events to attend, look up speakers, access the abstracts, and tweet your commentary and more! • If you “opt in,” it will allow other people at the meeting to contact you through the app via the e-mail address you provided at registration. Go to the “Settings” icon to change and save your options. • All meeting registrants are automatically listed as attendees in the app. To “opt out” of having your name listed, please notify an ECS employee in the Registration area. My Kaywa QR-Code

http://ecssanfrancisco.quickmobile.mobi/

Letters of Invitation—Individuals requiring an official letter of invitation should complete the electronic form at http:// www.electrochem.org/visa_application and your letter will be emailed to you within 3 business days. Such letters will not imply any financial responsibility of ECS.

DOWNLOADING the ECS App is EASY–

Letters of Attendance—Individuals requiring an official letter of attendance should see an ECS Representative in the Registration Area.

http://kaywa.me/V9yVL

ECS — The Electrochemical Society 65 South Main Street, Bldg. D Pennington, NJ 08534-2839, USA Phone: 609-737-1902 l Fax: 609-737-2743 ecs@electrochem.org l www.electrochem.org

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Complimentary Wireless Network Please connect to “PrincetonAppliedResearch” and then open your Web browser. You will then be prompted to enter the password listed below: Download the Kaywa QR Code Reader (App Store &Android Market) and scan your code!

Network Name (SSID).......PrincetonAppliedResearch Access Code........................connects (all lowercase)

Take advantage of this one-time only membership opportunity before you leave the meeting and save up to $98. Saying “YES!” to “MUST

HAVE” ECS Membership is Quick and Easy …

• Stop by the Tech Connect Corner (near the Registration area) and sign-up online for your FREE membership or • Log on to www.electrochem.org/free_membership from your personal computer, laptop, tablet, or phone or • Visit the Registration Area for more details.

Meeting ProgramMeeting October 27–November 1, 2013 *One-year ECS membership available NOW to all qualified non-member Attendees! l

San Francisco, CA

Meeting Events-at-a-Glance Sunday, October 27 0800h ��Technical Sessions begin (check Technical Program for exact time) 0900h ��Short Courses 1400h ��Professional Development Series: Essential Elements for Employment Success 1500h ��ECS Electrochemical Energy Summit (E2S)

Monday, October 28 0800h ��Technical Sessions begin (check Technical Program for exact time) 0800h ��ECS Electrochemical Energy Summit (E2S), featuring the Energy–Water Nexus Symposium (A3) 0800h ��Professional Development Series: Essential Elements for Employment Success 0930h ��Technical Session Coffee Break 1200h ��Professional Development Series: Résumé Review 1400h ��2013 Olin Palladium Award Lecture: ‟Mathematical Modeling of Lithium Ion Cells and Batteries” by Ralph White 1450h ��2013 Carl Wagner Memorial Award Lecture: ‟Multiple Proton-coupled Electron Transfer in Electrocatalysis: Theory vs. Experiment” by Marc T. M. Koper 1700h ��The ECS Lecture–‟America’s Energy Future: Science, Engineering, and Policy Challenges” by Mark S. Wrighton 1830h ��Student Mixer (by invitation only; contact meetings@electrochem.org for details)

Tuesday, October 29

0930h ��Technical Session–Coffee Break 1300h ��Technical Exhibit 1700h ��ECS Publications–Author Information Session 1800h ��Technical Exhibit; General and Student Poster Sessions

Wednesday, October 30 0800h ��Technical Sessions begin (check Technical Program for exact time) 0800h �� Professional Development Series: Résumé Review 0900h �� Technical Exhibit 0930h �� Technical Session Coffee Break in Exhibit Hall 1800h �� Student Poster Awards Presentation in Exhibit Hall 1800h �� Technical Exhibit and General Poster Session 1830h �� Author Meet & Greet/Book Signing and Giveaway Event celebrating the publication of Lithium Batteries, edited by Bruno Scrosati, K. M. Abraham, Walter van Schalkwijk, and Jusef Hassoun, ECS Booth #410,412; Technical Exhibit – Enter to win a signed edition!

Thursday, October 31 0800h ��Technical Sessions begin (check Technical Program for exact time) 0900h �� Technical Exhibit 0930h �� Technical Session Coffee Break in Exhibit Hall

Friday, November 1 0800h ��Technical Sessions begin (check Technical Program for exact time)

0800h ��Technical Sessions begin (check Technical Program for exact time) 0800h ��Professional Development Series: Résumé Review

ECS Student Mixer Students are invited to join distinguished members and staff of ECS for an evening of fun and networking, complimentary beverages and refreshments. Always one of the most popular events of the meeting, the student mixer is by invitation-only and will be held on Monday, October 28 from 1830-2030h. Registered students will receive an e-mail invitation with details of the mixer. Please remember to bring your badge, confirmation e-mail, and formal identification (passport or drivers license); proof of age is required. Please contact meetings@electrochem.org for more information.

ECS Publications–Author Information Session We encourage all authors to come and meet ECS Editors and Staff at this important new event. This session, which will provide you with information about how to get your work published in the best publications for electrochemistry and solid state science and technology, will be held on Tuesday, October 29 from 1700-1800h, in Yosemite B, Tower 2, Ballroom Level. Please see more event details on page 15.

Great News about ECS Meeting Abstracts! ECS Meeting Abstracts are always right at hand—and as always, are FREE with registration. Registrants may easily access them through wireless Internet, which will be available at the meeting; view them on the Meeting App; or download them directly from the 224th ECS Meeting website.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

IT ADM ONE

74 2090

Special & Ticketed Events All tickets are nonrefundable and should be purchased in advance because seating is limited. Tickets are priced as the following: Luncheons: $27 (Early-bird, through September 27); $32, after September 27 Receptions: $14 (Early-bird, through September 27); $16, after September 27 Other Events: price as noted

Sunday, October 27

Tuesday, October 29

1500h ��ECS Electrochemical Energy Summit (E2S); Continental 7/8/9, Tower 3, Ballroom Level (no ticket required) 1730h ��E2S - Energy Research Group Showcase & Poster Session; Continental 4/5/6, Tower 3, Ballroom Level (no ticket required) 1900h ��Electronics & Photonics Division Award Reception & General Meeting; Imperial A, Tower 2, Ballroom Level (no ticket required)

Monday, October 28 0800h ��ECS Electrochemical Energy Summit (E2S) featuring the Energy–Water Nexus Symposium (A3); Franciscan D, Tower 1, Ballroom Level

1215h ��Battery Division Luncheon & Business Meeting; Plaza Room A, Tower 2, Lobby Level 1215h ��Corrosion Division Luncheon & Business Meeting; Plaza Room B, Tower 2, Lobby Level 1215h ��High Temperature Materials Division Luncheon & Business Meeting; Taylor, Tower 3, 6th Floor 1215h ��Sensor Division Luncheon & Business Meeting; Powell, Tower 3, 6th Floor 1800h ��Corrosion Division Award Reception; Union Square 8, Tower 3, 4th Floor 1800h ��Europe Section, Gerischer Award Reception; Vista Lounge, Tower 1, 45th Floor (no ticket required)

Wednesday, October 30

1800h ��Luminescence & Display Materials Division Reception and General Business Meeting; Imperial A, Tower 2, Ballroom Level (no ticket required)

1215h ��Electrodeposition Division Luncheon & Business Meeting; Plaza Room B, Tower 2, Lobby Level

1830h ��D5 Symposium Reception in Honor of Clive Clayton; Golden Gate 1, Tower 3, Lobby Level

1900h ��Battery Division Award Reception; Vista Lounge, Tower 1, 45th Floor

224th ECS Meeting Highlight ECS celebrates the publication of Lithium Batteries—Advanced Technologies and Applications

Meet, greet, and chat with some of the editors! Plus, enter to win* a signed copy of Lithium Batteries When: Wednesday, October 30, 2013, 1830h Where: ECS Booth in the 224th ECS Meeting Technical Exhibit *No purchase is necessary but you must be present to win. Official rules available upon request to ecs@electrochem.org.

*You must be present at the Meet and Greet Book Signing & Giveaway to be eligible to win. Please check your meeting badge sheet for your book giveaway entry ticket.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Committees, Boards, and Other Meetings Sunday, October 27 1500h ��Electronics & Photonics Division Subcommittee on Compound Semiconductors; Union Square 8, Tower 3, 4th Floor 1500h ��Electronics & Photonics Division Subcommittee on ULSI Science & Technology; Union Square 9, Tower 3, 4th Floor 1530h ��Interface Advisory Board; Union Square 10, Tower 3, 4th Floor 1600h ��Electronics & Photonics Division Symposium Planning & Technical Directions Subcommittee; Union Square 8, Tower 3, 4th Floor 1700h ��Industrial Electrochemistry and Electrochemical Engineering Division Symposium Planning Committee; Union Square 10, Tower 3, 4th Floor 1700h ��Dielectric Science & Technology Division Governing Body / Long Range Planning Committee & Symposium Planning Meeting; Union Square 13, Tower 3, 4th Floor 1700h ��Physical & Analytical Electrochemistry Division Symposium Planning Committee; Union Square 9, Tower 3, 4th Floor 1730h ��Fuel Cell Subcommittee; Union Square 8, Tower 3, 4th Floor 1730h ��Corrosion Division Executive Committee; Green Room, Tower 2, Grand Ballroom Level 1800h ��Battery Division Executive Committee & Symposium Planning Subcommittee; Union Square 5/6, Tower 3, 4th Floor 1900h ��Sensor Division Executive Committee; Union Square 1/2, Tower 3, 4th Floor 2000h ��Electronics & Photonics Division Executive Committee; Union Square 10, Tower 3, 4th Floor 2030h ��Nominating Committee; Union Square 4, Tower 3, 4th Floor

Monday, October 28 0700h ��High Temperature Materials Division Executive Committee; Powell, Tower 3, 6th Floor 0700h ��Industrial Electrochemistry & Electrochemical Engineering Division Executive Committee; Sutter, Tower 3, 6th Floor 0700h ��Physical & Analytical Electrochemistry Division Executive Committee; Union Square 8, Tower 3, 4th Floor 0700h ��SSS&T Editorial Board; Union Square 9, Tower 3, 4th Floor 1000h ��Ethical Standards Committee; Union Square 7, Tower 3, 4th Floor 1330h ��Education Committee; Union Square 8, Tower 3, 4th Floor 1500h ��ECS Transactions Editorial Board; Golden Gate 5, Tower 3, Lobby Level 1500h ��Individual Membership Committee / Division / Section Representatives; Union Square 9, Tower 3, 4th Floor

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

1500h ��New Technology Subcommittee; Union Square 10, Tower 3, 4th Floor 1630h ��Luminescence & Display Materials Division Executive Committee; Imperial A, Tower 2, Ballroom Level 1800h ��Europe Section Executive Committee; Union Square 10, Tower 3, 4th Floor 1900h ��Europe Section Meeting; Golden Gate 8, Tower 3, Lobby Level 1900h ��Electrodeposition Division Executive Committee; Union Square 7, Tower 3, 4th Floor 1900h ��Energy Technology Division Executive Committee; Franciscan C, Tower 1, Ballroom Level

Tuesday, October 29 0700h ��ES&T Editorial Board; Boardroom, Tower 2, Ballroom Level 0700h ��Symposium Subcommittee; Powell, Tower 3, 6th Floor 0730h ��Council of Past Presidents; Union Square 10, Tower 3, 4th Floor 0730h ��Sponsorship Committee; Union Square 9, Tower 3, 4th Floor 0930h ��Publications Subcommittee; Union Square 8, Tower 3, 4th Floor 1215h ��Battery Division Luncheon & Business Meeting; Plaza Room A, Tower 2, Lobby Level (ticket required) 1215h ��Corrosion Division Luncheon & Business Meeting; Plaza Room B, Tower 2, Lobby Level (ticket required) 1215h ��High Temperature Materials Division Luncheon & Business Meeting; Taylor, Tower 3, 6th Floor (ticket required) 1215h ��Sensor Division Luncheon & Business Meeting; Powell, Tower 3, 6th Floor (ticket required) 1600h ��Honors & Awards Committee; Union Square 10, Tower 3, 4th Floor 1700h ��ECS Publications–Author Information Session; Yosemite B, Tower 2, Ballroom Level

Wednesday, October 30 0730h ��Technical Affairs Committee; Boardroom, Tower 2, Ballroom Level 1000h ��Ways & Means Committee; Union Square 8, Tower 3, 4th Floor 1215h ��Electrodeposition Division Luncheon & Business Meeting; Plaza Room B, Tower 2, Lobby Level (ticket required)

Thursday, October 31 0830h ��Board of Directors Meeting; Yosemite A/B, Tower 2, Ballroom Level

Volume 58– S a n F r a n c i s c o , C a l i f o r n i a from the San Francisco meeting, October 27—November 1, 2013 The following issues of ECS Transactions are from symposia held during the San Francisco meeting. All issues are available in electronic (PDF) editions, which may be purchased by visiting http://ecsdl.org/ECST/. Some issues are also available in soft or hard cover editions. Please visit the ECS website for all issue pricing and ordering information. (All prices are in U.S. dollars; M = ECS member price; NM = nonmember price.)

Available Issues Vol. 58

No. 1

Polymer Electrolyte Fuel Cells 13 (PEFC 13) CD/USB........................ M $212.00, NM $265.00

Vol. 58 No. 2

Electrochemical Synthesis of Fuels 2 HC ................................M $141.00, NM $177.00

Vol. 58 No. 3

High Temperature Experimental Techniques and Measurements HC ..............................M $92.00, NM $115.00

Vol. 58 No. 4

Gallium Nitride and Silicon Carbide Power Technologies 3 HC..............................M $127.00, NM $159.00

Vol. 58 No. 5

Nonvolatile Memories 2 HC.............................M $94.00, NM $117.00

Vol. 58 No. 6

Semiconductor Cleaning Science and Technology (SCST) 13) HC.............................M $102.00, NM $127.00

Vol. 58 No. 7

Semiconductors, Dielectrics, and Metals for Nanoelectronics 11 HC ...........................M $117.00, NM $147.00

Vol. 58 No. 8

State-of-the-Art Program on Compound Semiconductors (SOTAPOCS) 55 -and- LowDimensional Nanoscale Electronic and Photonic Devices 6 HC.............................M $114.00, NM $143.00

Vol. 58 No. 9

ULSI Process Integration 8 HC.............................M $92.00, NM $115.00

Vol. 58 No. 10

Atomic Layer Deposition Applications 9 HC.............................M $92.00, NM $115.00

Vol. 58 No. 11

Photovoltaics for the 21st Century 9 SC.............................TBD

Forthcoming Issues SAN A0

Special Lectures - 224th ECS Meeting

SAN A1

Student Posters (General) - 224th ECS Meeting

SAN A2

SAN D1

Corrosion Posters (General) - 224th ECS Meeting

SAN G1

Alkaline Electrolyzers

SAN G2

Synthesis and Electrochemical Engineering General) - 224th ECS Meeting

SAN D2

Atmospheric Corrosion

Nanotechnology (General) - 224rd ECS Meeting

SAN D3

Degradation of Carbon Structural Materials

SAN H1

SAN A3

The Energy Water Nexus

SAN D4

SAN B1

Energy Technology/Battery--Joint Session (General) - 224th ECS Meeting

Mass Transport Phenomena in Localized Corrosion

Carbon Nanostructures 4 - Fullerenes to Graphene

SAN I1

SAN D5

Physical and Analytical Electrochemistry (General) - 224th ECS Meeting

SAN B2

Battery Chemistries Beyond Lithium Ion

Oxide Films: A Symposium in Honor of Clive Clayton on his 65th Birthday

SAN I2

Battery Safety

SAN I3

SAN B4

Computational Science of Battery Materials

Biodegradable and Bioabsortable Metals and Materials

Invitational Symposium in Honor of Adam Heller on his 80th Birthday

SAN B3

SAN D6 SAN E1

Photoelectrochemistry and Photoassisted Electrocatalysis

SAN I4

SAN B5

Electrochemical Capacitors: Fundamentals to Applications

Solid State Topics (General) - 224th ECS Meeting

SAN E7

Physical and Electrochemistry in Ionic Liquids 3

SAN I5

Electrode Processes 8

SAN B8

Intercalation Compounds for Rechargable Batteries

Processing, Materials, and Integration of Damascene and 3D Interconnects 5

SAN F1

SAN J1

Sensors, Actuators, and Microsystems (General) - 224th ECS Meeting

SAN B9

Interfacial Phenomena in Battery Systems

Current Trends in Electrodeposition An Invited Symposium

SAN F2

SAN J2

Impedance Techniques, Diagnostics, and Sensing Applications

SAN B10

Lithium-Ion Batteries

Emerging Materials and Processes for Energy Conversion and Storage

Stationary and Large-scale Electrical Energy Storage Systems 3

SAN F3

Fundamentals and Applications of Electrophoretic Deposition

SAN J3

SAN B12

Luminescence and Display Materials Fundamentals and Applications

SAN F4

Fundamentals of Electrochemical Growth - From UPD to Microstructures 3

SAN J4

Microfluidic MEMS/NEMS, Sensors and Devices

SAN F5

Emerging Opportunities in Electrochemical Deposition for Nanofabrication

SAN J6

Sensors for Agriculture

Ordering Information To order any of these recently-published titles, please visit the ECS Digital Library, http://ecsdl.org/ECST/ Email: customerservice@electrochem.org 8

Meeting Program l October 27–November 1, 2013 l San Francisco,09/09/13 CA

Featured Speakers Plenary Session and ECS Lecture Monday, October 28, 2013, 1700h Grand Ballroom A, Tower 2, Grand Ballroom Level

America’s Energy Future: Science, Engineering, and Policy Challenges by Mark S. Wrighton Mark S. Wrighton was named the 14th Chancellor of Washington University in St. Louis in 1995, following more than two decades at the Massachusetts Institute of Technology, where he was Professor of Chemistry, head of the department, and later Provost. Chancellor Wrighton earned a bachelor’s degree in chemistry from Florida State University and a PhD in chemistry from the California Institute of Technology. Active in public and professional affairs, he has served on numerous governmental panels, including service as Vice Chair of the NRC Committee on America’s Energy Future.

ECS Olin Palladium Award Lecture Monday, October 28, 2013, 1400h Grand Ballroom A, Tower 2, Grand Ballroom Level

Mathematical Modeling of Lithium Ion Cells and Batteries by Ralph E. White Ralph E. White is a Professor of Chemical Engineering and a Distinguished Scientist at the University of South Carolina. He received his PhD from the University of California at Berkeley in 1977 under the direction of Professor John Newman. Dr. White taught at Texas A&M University for almost 16 years before moving to the University of South Carolina where he has served as the Chair of the Department of Chemical Engineering and the Dean of the college. Dr. White has authored or coauthored more than 320 peer-reviewed journal articles, primarily on electrochemical systems, and has graduated 50 PhD and 38 MS students. Currently, he and members of his research group are working on projects on batteries and numerical methods. Dr. White is a former Treasurer of ECS, and he is a Fellow of ECS, American

ECS Carl Wagner Memorial Award Lecture Monday, October 28, 2013, 1450h Grand Ballroom A, Tower 2, Grand Ballroom Level

Multiple Proton-coupled Electron Transfer in Electrocatalysis: Theory vs. Experiment by Marc T. M. Koper Marc T. M. Koper is Professor of Surface Chemistry and Catalysis at Leiden University, The Netherlands. He received his PhD in 1994 from Utrecht University, The Netherlands, in the field of electrochemistry with a thesis on electrochemical oscillations. He was an EU Marie Curie postdoctoral fellow at the University of Ulm, Germany and a Fellow of Royal Netherlands Academy of Arts and Sciences (KNAW) at Eindhoven University of Technology, before moving to Leiden University in 2005. Dr. Koper has also been a visiting professor at Hokkaido University, Japan. He is the recipient of various research grants of the Netherlands Organization

In 2007 the National Research Council convened a committee to study America’s Energy Future, and the report from the committee became public in the spring of 2009. This presentation will include a summary of important events and issues that have arisen since the report was issued, including expansion of the use of natural gas in the United States, the devastating impact from the tsunami in Japan at the Tokyo Electric Power Company’s plant in Fukushima, international tensions surrounding the photovoltaic industry, and a rise in CO2 concentration in the global atmosphere above the 400 ppm level in 2013. Efforts are being made to assure that America’s future energy needs are met at an affordable cost while minimizing adverse effects on the environment. However, to achieve this goal, many challenges must be overcome in a number of critical areas, many of which must be addressed by the science and engineering community. Other challenges require leadership on local, state, national, and international policy. The challenges and opportunities to meet America’s future energy needs will be summarized.

Institute of Chemical Engineers, and AAAS. He has received several awards including the 2000 AESF Scientific Achievement Award for mathematical modeling of the electrodeposition of alloys. A physics-based model of a lithium ion cell can be used to make predictions of the voltage of the cell as a function of time for charge and discharge given the design parameters and operating conditions of the cell. Such a model enables cell designers to determine the effect of changing design parameters on cell performance before building the cell. This model can also be used to design a thermal management system to ensure that the heat generated in the cell is removed before causing overheating and thermal runaway of the cell. It could also be used to make predictions about the life of the cell given information about the anticipated operational conditions. This physics-based model of a lithium ion cell could also be extended to include multiple spatial dimensions to predict the temperature distribution in a lithium ion cell for a given set of conditions. It is now possible to use such physic-based models of lithium ion cells to simulate the performance of lithium ion battery packs. These physics-based battery pack models can be used to design thermal management systems, balancing circuits to extend the life of the battery packs, and control algorithms to ensure successful operation of the battery pack over the life of the pack. A review of the development of physics-based lithium ion cell and battery pack models will be presented.

of Scientific Research (NWO), including a VICI grant in 2005 and a TOP grant in 2011. He was the recipient of a Japan Society for the Promotion of Science (JSPS) Long-Term Fellowship Award in 2011, and the Hellmut Fischer Medal of the German Society for Chemical Technology (DECHEMA) in 2012. This talk will outline a simple but general theoretical analysis for multiple proton-electron transfer reactions, based on the microscopic theory of proton-coupled electron transfer reactions, recent developments in the thermodynamic theory of multi-step electron transfer reactions, and the experimental realization that many multiple proton-coupled electron transfer reactions feature decoupled proton-electron steps in their mechanism. It is shown that decoupling of proton and electron transfer leads to a strong pH dependence of the overall catalytic reaction, implying an optimal pH for high catalytic turnover, and an associated optimal catalyst at the optimal pH. When more than one catalytic intermediate is involved, scaling relationships between intermediates may dictate the optimal catalyst and limit the extent of reversibility that may be achievable for a multiple proton-electron-transfer reaction. These scaling relationships follow from a valence-bond-type binding of intermediates to the catalyst surface. The theory is discussed in relation to the experimental results for a number of redox reactions that are of importance for sustainable energy conversion, primarily focusing on their pH dependence.

Award Winners See pages 9 for biographies of the Olin Palladium award winner and the Carl Wagner Memorial award winner.

Hector Abruña, Emile M. Chamot Professor of Chemistry, is the Director of the Energy Materials Center at Cornell (emc2) and the Center for Molecular Interfacing (cmi). He completed his graduate studies with Royce W. Murray and Thomas J. Meyer at the University of North Carolina at Chapel Hill in 1980 and was a postdoctoral research associate with Allen J. Bard at the University of Texas at Austin. After a brief stay at the University of Puerto Rico, he came to Cornell in 1983. He was Chair of the Department of Chemistry and Chemical Biology from 2004-2008. Dr. Abruña has received numerous awards including a Presidential Young Investigator Award, Sloan Fellowship, J. S. Guggenheim Fellowship and J. W. Fulbright Senior Fellow, the Electrochemistry Award for the American Chemical Society (2008), and the C. N. Reilley Award in Electrochemistry for 2007. He was elected Fellow of the American Association for the Advancement of Science in 2007, member of the American Academy of Arts and Sciences in 2007, and Fellow of the International Society of Electrochemistry in 2008. He received the ECS Physical and Analytical Electrochemistry Division David C. Grahame Award in 2009, the Faraday Medal of the Royal Society in 2011, and in 2013, the Brian Conway Prize of the International Society of Electrochemistry. Dr. Abruña is the coauthor of 400 publications and has presented over 500 invited lectures worldwide. Out of the 43 students that, to date, have obtained a PhD under his direction, 12 have gone on to faculty positions.

Gary Hunter is the technical lead for the Chemical Species Gas Sensors Team and the lead for Intelligent System Hardware in the Sensors and Electronics Branch at NASA Glenn Research Center. Since his arrival at NASA Glenn, he has been involved with the design, fabrication, and testing of sensors, especially chemical species gas sensors. He has worked closely with academia and industry in developing a range of sensor technologies and sensor systems using a number of different sensor materials and sensing approaches. This work has included the use of both micro- and nanotechnology as well as the integration of sensor technology into smart systems. Dr. Hunter’s contributions range from research to technical management in fields including engine emissions, environmental monitoring, breath monitoring, fire detection, leak detection, and high temperature wireless sensors. He has been involved with development projects ranging from: producing a sensor for detecting fuel leaks for use on launch vehicles, a Venus seismometer to work on the planet’s surface, and a new fabrication method for sensors based on nanotechnology. Dr. Hunter has been active in the application of the resulting sensor technology both in NASA and industry. In 1995, he was co-recipient of an R&D 100 for the development of an Automated Hydrogen Leak Detection System used on the Ford automotive assembly line. The technology he has developed has been chosen, demonstrated, or applied in applications such as the Space Shuttle, NASA Helios Vehicle, International Space Station, Jet Engine Test Stands, and the Ford U Car. In 2005, he was co-recipient of an R&D 100 for a fire detection system that showed a zero false alarm rate in FAA testing. In 2011, Dr. Hunter received the NASA Glenn Research Center Abe Silverstein Medal for pioneering research and commercialization of chemical gas sensor microsystems for NASA missions. He has served as Chair of the ECS Sensor Division, organized a number of symposia, taught short courses on chemical sensing, and has a significant number of papers, talks, and invited talks.

Nancy Dudney is a distinguished researcher in the Materials Science and Technology Division at Oak Ridge National Laboratory. She received degrees from the College of William and Mary (BS, chemistry) and MIT (PhD, ceramic materials science and engineering) and began work at Oak Ridge National Laboratory as a Wigner Research Fellow in the Solid State Division. Dr. Dudney’s research interests include: lithium battery materials and architectures, thin film and composite electrolytes, thin film materials for batteries, and mixed ionic-electronic conduction in oxides. She helped pioneer the development of commercial thin-film lithium batteries and continues to utilize thin film processing and materials in her research toward the stabilization of battery interfaces. Her goal is to promote development of safe and efficient batteries for vehicles and renewable energy. Dr. Dudney is an inventor with 12 issued and 11 pending patents. She authored more than 150 peer-reviewed journal publications and book chapters. Her inventions won four R&D 100 awards and three awards of Excellence in Technology Transfer by Federal Laboratory Consortium. Recognition was also awarded by the Association of Women in Science and YMCA’s Tribute to Women. Dr. Dudney is a dedicated ECS member and served various positions from member-at-large to chair on the executive board at the Battery Division. She organized numerous symposia and conferences. She also served for three decades as associate editor for the Journal of the American Ceramic Society. Her tireless service to professional societies facilitates the communications in the research community.

Jiri (Art) Janata is Georgia Research Alliance Eminent Scholar in the School of Chemistry and Biochemistry, Georgia Institute of Science and Technology. Between 1991 and 1997, he was an Associate Director of Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory, in Richland, Washington. Prior to that appointmen. Dr. Janata was Professor of Materials Science and Professor of Bioengineering at the University of Utah for seventeen years. He came to Utah after leading an analytical development group at Corporate Laboratory of Imperial Chemical Industries, Ltd., in England for eight years. Born in Czechoslovakia. Prof. Janata received his PhD degree in analytical chemistry from the Charles University (Prague) in 1965. His academic training included postdoc position at the University of Michigan with Harry B. Mark Jr. Dr. Janata has over 230 peer-reviewed publications to his credit, over 20 patents and 22 contributed book chapters. The main area of his research, chemical sensors, has been summarized in the popular graduate textbook Principles of Chemical Sensors, first published by Academic Press in 1989 and again in 2010 by Springer, as the updated 2nd Edition. In the course of his academic career, Professor Janata trained over 80 PhD and numerous MSc and postdoctoral students. He held visiting professorships at Universität der Bundeswehr, EPFL Lausanne, Tokyo Institute of Technology, ETH Zurich and at the Weizmann Institute, Israel. He is recipient of Senior Scientist Prize from the Alexander von Humboldt Foundation, Creativity Award from the National

2013 Class of ECS Fellows Established in 1989, the designation of Fellow of The Electrochemical Society is awarded for individual contributions and leadership in the achievement of science and technology in the area of electrochemistry and solid state sciences and current active participation in affairs of ECS.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Science Foundation (USA), and in 1994, was the first ECS Sensor Division Outstanding Research Award. In 2001, Dr. Janata was named an Honorary Member of the Czech Learned Society. Besides organizing numerous professional meetings, he has chaired three Gordon Research Conferences on Chemical Sensors and Interfaces, Energy and Environment and Electrochemistry, respectively. In 1995, he was the Plenary Speaker at the Electrochemical Society Meeting in Reno. Dr. Janata’s general interests include interfacial chemistry and radioanalytical chemistry. His current hot topic is the synthesis of new materials for chemical sensors and catalysis, based on composites of organic semiconductors and atomic metals. Johna Leddy holds a BA from Rice University, a PhD from the University of Texas, and completed a postdoctoral appointment in the Fuel Cell Program at Los Alamos National Labs. She was Assistant Professor at Queens College, Graduate Program of the City University of New York. In 1991, she moved to the Chemistry Department, University of Iowa where she has thus far mentored 15 PhD graduates. Their work on magnetoelectrocatalysis in fuel cells, batteries, solar cells, breath sensors, electrochemical ammonia generation with cyanobacteria, and sonoelectrochemistry have generated numerous patents and patent applications. Dr. Leddy’s research interests include magnetic effects on electron transfer reactions and electrocatalysis. Magnetoelectrocatalysis improves energy storage and generation systems that include batteries, fuel cells, hydride storage, dye sensitized solar cells, and photogeneration of hydrogen on p-Si. Magnetic fields facilitate electron transfer reactions for adsorbates such as CO oxidation on platinum. Magnetic microparticles on and in electrodes are used to introduce magnetic fields. Models for magnetic effects on electron transfer characterize results of temperature dependent experiments. In essence, to transfer an electron, it is necessary to transfer the charge and the spin. Magnetic fields interact with the spin. Other research interests include physical manipulation of electrocatalysis with sound energy, electrochemical energy systems, voltammetric characterization of films on electrodes, electroanalysis, and electrochemical modeling. Dr. Leddy has been actively involved with ECS. She has served on the Executive Committee of the Physical and Analytical Electrochemistry Division (PAED) and more than half of the Standing Committees of the Society. She recently completed a term as Secretary of the Society. Professor Leddy has also served as President of the Society for Electroanalytical Chemistry. Shelley Minteer is a USTAR Professor in both the Departments of Chemistry and Materials Science and Engineering at the University of Utah. She received her PhD in Analytical Chemistry at the University of Iowa in 2000 under the direction of Professor Johna Leddy. After receiving her PhD, she spent 11 years as a faculty member in the Department of Chemistry at Saint Louis University before moving to the University of Utah in 2011. During both her time at Saint Louis University and University of Utah, Dr. Minteer has been involved with ECS, including roles as Chair, Vice-Chair, Secretary-Treasurer, and Member-at-Large of the Physical and Analytical Electrochemistry Division (PAED), as well as being a member of the Honors & Awards Committee, the New Technology Subcommittee, and the Symposium Planning Subcommittee. She is currently a Technical Editor for the Journal of The Electrochemical Society and ECS Electrochemistry Letters. Professor Minteer has published more than 150 publications and over 250 presentations at national and international conferences. She has won several awards including the Missouri Inventor of the

Year, International Society of Electrochemistry Tajima Prize, and the Society of Electroanalytical Chemists’ Young Investigator Award. In 2003, she cofounded Akermin, Inc. with her previous graduate student, which has focused on the commercialization of her biobattery technology and has moved on to carbon capture technology. Her research interests are focused on electrocatalysis and bioanalytical electrochemistry. She has expertise in bioelectrochemistry and bioelectrocatalysis for biosensors and biofuel cells. Sanjeev Mukerjee is a professor in the Department of Chemistry and Chemical Biology, Northeastern University, where he has been since September 1998. He also heads the newly-created center for Renewable Energy Technology at Northeastern University and its subset the Laboratory for Electrochemical Advanced Power (LEAP). Dr. Mukerjee’s research on charge transfer dynamics at both two and three dimensional electrochemical interfaces encompasses materials development, in situ synchrotron spectroscopy and electroanalytical methods. In addition, new computational initiatives are in progress involving both molecular modeling and simulation of multiple electron scattering in the context of in situ synchrotron XANES method. The current projects of the group include materials development for new electrocatalysts, polymer electrolyte membranes, and high energy density (and capacity) cathode materials for aqueous and non-aqueous storage cells. Fundamental understanding of structure property relationships are in concert with applications. In this context two startup companies which the group helped found, Encite Corp, Burlington, MA and Protonex Corp., Westboro, MA are notable. In addition, partnerships with de Nora, and BASF, Proton Onsite and Automotive Fuel Cell Corporation (Canada) are ongoing for developing a number of fuel cell and electrolyzer technologies. Federal funding comes from the Army Research Office, Department of Energy, National Science Foundation, Air Force Office of Scientific Research and National Institute of Technology-Advanced Technology Program. Professor Mukerjee is an author of 106 peerreviewed publications with an h-factor of 45. Elizabeth Opila is an associate professor in materials science and engineering at the University of Virginia in Charlottesville, where she has been since 2010. Prior to that, she was Materials Research Engineer at the NASA Glenn Research Center in Cleveland, OH for 19 years, where she worked primarily on ceramics for applications in turbine engines, rocket engines, hot structures for thermal protections systems, and other power and propulsion applications. Dr. Opila’s primary research focus includes understanding thermodynamics and kinetics of material degradation reactions in extreme environments, development of life prediction methodology based on understanding of fundamental chemical reaction mechanisms, and materials development for protection of materials from extreme environments. Additional research areas of interest include defect chemistry of functional oxides. Dr. Opila received her BS in ceramic engineering from the University of Illinois, her MS in materials science from the University of California Berkeley, and her PhD in materials science from the Massachusetts Institute of Technology. She is currently a consultant for the NASA Engineering and Safety Center–Materials Technical Discipline Team. She is a member of ECS and past chair of the High Temperature Materials Division. She is also a member of the American Ceramic Society, TMS (The Minerals, Metals & Materials Society), and the Materials Research Society. She has over 100 publications as well as six patents. (continued on next page)

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Award Winners–ECS Fellows (continued from previous page)

Jan Robert Selman is currently the University Distinguished Research Professor at the Illinois Institute of Technology (IIT), Chicago. He has served on the faculty of IIT since 1975 and retired from teaching in 2002. He received his Ingenieur (chem.tech.) diploma in 1961 in chemical technology from Delft Technical University in the Netherlands, and completed graduate studies in chemical engineering at the University of Wisconsin at Madison (MS, 1962) and the University of California at Berkeley (PhD, 1971). After working at Argonne National Laboratory in high-temperature batteries, he joined IIT and established a graduate research program focusing on high temperature batteries and fuel cells (in particular MCFC and SOFC). Since retirement from teaching, his research is focused on fundamentals of wetting by molten carbonate and on the technology of the Direct Carbon Fuel Cell (DCFC), as well as SOFC component fabrication issues. [In the experimental part of this work he is cooperating closely with Dr. John Cooper (Direct Energy, Inc.), and professors Philip Nash and Leon Shaw (IIT)]. More than 30 doctoral dissertations, 40 master’s theses, and 150 journal articles were a result of Professors Selman’s research program at IIT, and most of his former graduate students are now working in energy research, industry, or on the faculty of colleges or universities. With his group he authored or coauthored more than 150 scholarly articles (of which 45 are in the Journal of The Electrochemical Society or other ECS publications). He coedited 12 books or proceedings volumes. The most notable of his contributions to electrochemistry and electrochemical engineering have been in molten carbonate fuel cell technology and engineering, and in the thermal analysis and heat management of lithium-ion batteries. He is co-inventor on a dozen U.S. patents, among which are basic patents for thermal management of lithium-ion batteries by phase change materials. He works together with his former student and colleague Said Al-Hallaj (UIC, Chicago) on commercializing heat management and thermal run-away control of lithium-ion batteries (AllCell Technologies LLC). Prof. Selman’s contributions within ECS were recognized earlier by the Energy Technology Research Award (2002) and his international contributions by the Grove Medal 2010 in Fuel Cell Science and Technology. Kalpathy Sundaram is a senior professor and the graduate coordinator in the Department of Electrical and Computer Engineering at the University of Central Florida. He received his BSc (Special) degree in physics from University of Kerala, India, in 1970. He received the BE degree in electrical and communication engineering from Indian Institute of Science, Bangalore, in 1973, and completed his MTech and PhD degrees in electrical engineering from Indian Institute of Technology, Bombay, in 1975 and 1980 respectively. In 1981, Professor Sundaram joined McMaster University, Hamilton, Canada, as Post-Doctoral Research Fellow. He joined the Opto-Electronics Inc., Oakville, Canada, as a Research Scientist in 1984. Later in 1987, he joined the Department of Electrical and Computer Engineering at the University of Central Florida. Spanning more than two decades of continuous research, Professor Sundaram has provided the foundation of thin film technology for low dielectric constant and high-k dielectric materials. His technical contributions in non-traditional low-k materials such as silicon carbon nitride (SiCN), silicon carbon boron nitride (SiCBN), and boron carbon nitride (BCN) are cited as the original works. In addition, his research contribution in the area of non-traditional high-k materials such as SiN, SiON and CeO2 for metal-oxide-semiconductors (MOS) structures are well known and highly regarded by both academic and industrial researchers and engineers for solving fundamental problems in high-k materials. In particular, his contributions to the 12

systematic comparison of work functions for various combinations of Pt-Ru binary alloys for replacement of the poly-Si gate in p-MOS with a high-k gate dielectrics and studies on zinc oxide (ZnO) films for transparent conducting electrode applications in photovoltaics are highly considered by both the national and international scientific and engineering communities. Professor Sundaram has served in various leadership roles in the Dielectric Science and Technology Division of ECS including Award Chair, Treasurer, Secretary, Vice-Chair, and Chair. Professor Sundaram has published more than 130 papers. His efforts in education have resulted in three University for Excellence in Teaching awards given by the Board of Trustees and the IEEE Region three Outstanding Engineering Educator Award. Enrico Traversa is currently a professor of materials science and engineering at the King Abdullah University of Science and Technology (KAUST). He received his “Laurea” (Italian Doctoral Degree) Summa cum Laude, in chemical engineering from the University of Rome La Sapienza in 1986. Professor Traversa joined the University of Rome Tor Vergata in 1988, and since 2000, is a professor of materials science and technology (now on leave of absence). During his tenure at the University, he was the Director of the PhD Course of Materials for Health, Environment and Energy from 2001-2008. From 2009 to 2012, Dr. Traversa was a principal investigator at the International Research Center for Materials Nanoarchitectonics (MANA) at the National Institute for Materials Science (NIMS), Tsukuba, Japan, leading a unit on Sustainability Materials. In 20122013, he was the Director of the Department of Fuel Cell Research at the International Center for Renewable Energy, Xi’an Jiaotong University, China. Professor Traversa is an author of more than 490 scientific papers (more than 300 of them published in refereed international journals) and 16 patents, and edited 28 books and special journal issues. He is listed in the Essential Science Indicators/Web of Science as a highlycited researcher, both in the Materials Science and Engineering categories, and his h-index is 42. Elected in 2007 in the World Academy of Ceramics, Dr. Traversa was also elected to its Advisory Board (2010-2014). In 2011, he was recipient of the Ross Coffin Purdy Award of the American Ceramic Society for the best paper on ceramics published in 2010. He was recipient of a “1000 Talent” Scholarship from the Government of China in 2011. He served on several ECS committees, and was Chair of the High Temperature Materials Division (2009-2011). From 2003 to 2009, he was Member of the International Relations Committee of the Materials Research Society (MRS). He is currently Editor-inChief of Materials for Renewable and Sustainable Energy and an Associate Editor for the Journal of Nanoparticle Research. He is one of the Volume Organizers of MRS Bulletin for 2014. Martin Winter has been researching in the field of electrochemical energy storage and conversion for more than 20 years. His focus has been on the development of new materials, components, and cell designs for batteries and supercapacitors, in particular lithium-ion batteries. Professor Winter is professor of applied materials science for electrochemical energy storage and conversion at the Institute of Physical Chemistry at Münster University, Germany. The full professorship developed from an endowed professorship funded by the companies Volkswagen, Evonik Industries, and Rockwood Lithium from 2008 to 2012. Currently, Professor Winter is the scientific head of the MEET Battery Research Center at Münster University. MEET (Münster Electrochemical Energy Technology) combines outstanding equipment with an international team of about 130 scientists working on the research and development of innovative electrochemical energy storage devices.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Professor Winter graduated from Münster University. After obtaining his PhD, he worked as post-doctoral research fellow at the Paul Scherrer Institute in Switzerland and later as University Assistant at the University of Technology (TU) in Graz, Austria. Martin Winter then held a full professorship at the Institute of Chemical Technology of Inorganic Materials at the TU Graz. In 2008, he returned to Münster and initialized the process of founding the MEET Battery Research Center. Professor Winter has been a member of ECS since 1997, a (JES) Associate Editor, from 2004-11, and since 2011, is a technical editor for the Journal of The Electrochemical Society and ECS Electrochemical Letters. He is also the spokesperson of the Innovation Alliance LIB 2015, which was initialized by the German Federal Ministry of Education and Research. He is now an associate of the National Platform E-Mobility (NPE), which consults to the German chancellor and government. Dr. Winter is also the head of the research council of the Battery Forum Germany, which advises the German Ministry of Science and Education in the field of electrochemical energy storage. Professor Winter has received the ECS Battery Technology Award and the Research Award of the International Battery Materials Association, among other honors. He has published more than 350 articles in journals, books and proceedings, filed 26 patents and 40 patent applications, and been invited to give more than 300 keynote and plenary presentations during his scientific career.

2012 Norman Hackerman Young Author Awards The Norman Hackerman Young Author Awards were established in 1928 for the two best papers published in the Journal of The Electrochemical Society—one for a paper in the field of electrochemical science and technology, and the other for solid state science and technology. In the category of Electrochemical Science &Technology (EST), the winners were K. Sykes Mason and Kiersten C. Horning, for “Investigation of a Silicotungstic Acid Functionalized Carbon on Pt Activity and Durability for the Oxygen Reduction Reaction” (JES, Vol. 159, No. 12, p. F871). Kelly “Sykes” Mason, completed his bachelor’s degree in chemical and biochemical engineering at the Colorado School of Mines (CSM) in May of 2010. He continued into the graduate program for chemical engineering at CSM to research Pt-based fuel cell cathode catalysts, specifically with regards to catalyst support functionalization with heteropoly acid. He will be graduating in December 2013 and is currently exploring possible career paths. Kiersten Horning began attending Colorado School of Mines (CSM) in the fall of 2010, where she studied to obtain a chemical engineering degree. In her sophomore year, she started working as a research assistant for Kelly S. Mason, a graduate student in Andrew Herring’s Electrochemistry group. After being trained in microscopy, she analyzed Mason’s fuel cell catalysts. She left CSM and will begin studying nutritional science at Colorado State University this fall. In the category of Solid State Science & Technology (SSST), the winner was Balavinayagam Ramalingam, for “Multi-Layer Pt Nanoparticle Embedded High Density Non-Volatile Memory Devices” (JES, Vol. 159, No. 4, p. H393).

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Balavinayagam Ramalingam (Bala) is currently pursuing a PhD in electrical and computer engineering at the University of Missouri, Columbia (UMC) under the guidance of Shubhra Gangopadhyay. His research focuses on the development of sub-2 nm platinum nanoparticles for varied applications. He has identified a unique technique in the sputtering process; where use of low metal atom density regions result in ultra-fine metal nanoparticles with homogeneous size distribution. He has also worked on probing these nanoparticles for size dependent properties in solid state devices and electronic sensors. Over four years, his work has aided in publishing nine articles in renowned journals. He also worked toward developing intelli switch for radar applications, with Justin Legarsky at UMC, and received his master’s degree in 2009. He earned his bachelor’s degree in engineering from India in 2007. Before resuming graduate school he joined the Indian Space Research Organization (ISRO) as a research assistant.

Battery Division Research Award Doron Aurbach is a professor in the department of chemistry, a Senate member, and the director of the Clean-Tech Center at the BarIlan University Institute of Nanotechnology and Advanced Materials (BINA). He is the leader of the Israel National Research Center for Electrochemical Propulsion (INREP), which includes 14 research groups from four leading academic institutions. He leads the electrochemistry group (more than 40 people), which is the largest group of its kind at BIU and in Israel. He also serves as the chair of Israel National Labs Accreditation Authority. He was the chair of the Department of Chemistry during 2001-2005. Professor Aurbach has directed more than 20 post-doctoral fellows, and 35 PhD students, and 45 MSc students have received their degrees under his supervision, several of whom have already developed very successful academic careers. He has published more than 430 papers in leading electrochemistry, materials science, and physical chemistry journals. He is a Fellow of ECS (since 2008), ISE (since 2010), and MRS (since 2012), and serves the electrochemistry and power sources R&D community as technical or associate editor of three journals: Journal of The Electrochemical Society, ECS Electrochemistry Letters, and Journal of Solid State Electrochemistry. Dr. Aurbach has won several prizes, including the Kolthoff prize for excellence in chemistry (2013), the Israel Chemical Society (ICS) Prize of Excellence (2012), Landau Prize for Green Chemistry (2011), the Edwards Company Prize of the Israel Vacuum Society (IVS) for Research Excellence (2007), and the Technology Award of the ECS Battery Division (2005). The scope of Professor Aurbach’s research includes all aspects of non-aqueous electrochemistry, and many kinds of batteries: Li, Li ion, Mg, metal (Li,Al) air, Li sulfur and lead acid systems, super and pseudo capacitors, electronically conducting polymers, and water desalination by electrochemical means. The research work is systematic, includes intensive mechanistic studies and makes use of a very wide scope of electrochemical, microscopic, spectroscopic and structural techniques in order to reach full understanding of the correlation among surface chemistry, morphology, and structure of complicated electrochemical systems, related to the field of power sources. (continued on next page)

Award Winners

(continued from previous page)

Battery Division Technology Award Karim Zaghib received his MS (1987) and PhD (1990), both in electrochemistry, from the Institut National Polytechnique de Grenoble, France under the direction of Bernadette Nguyen. In 2002, he received the HDR (Habilitation a Diriger la Recherche) in materials science from the Université de Pierre et Marie Curie, Paris, France. From 1986 to 1990, Dr. Zaghib developed Al-Mn alloys as negative electrodes in molten salts for Li-ion batteries and Cu/Zn reaction displacement. In 1990, Dr. Zaghib published a new method to enhance the electrodeposition of metals. From 1990-1995, he was a post-doctoral fellow investigating chemical lithiation of graphite under a Saft-DGA contract. Then from 1992 to 1995, Dr. Zaghib was guest researcher for the Japanese Ministry of International Trade and Industry (METI); and in 1995 he was instrumental in introducing Liion technology to HydroQuébec, where he is currently the Director of the Conversion and Storage of Energy Department. At Hydro-Québec, Dr. Zaghib initiated research collaborations, with Michel Armand on new materials and solid polymer electrolytes, and with Kim Kinoshita at LBNL to understand the oxidation and irreversible capacity loss of a range of particle sizes of natural graphite. During the past 18 years, Dr. Zaghib has actively collaborated with John Goodenough (University of Texas, Austin), and Christian Julien and Alain Mauger (Paris 6 University, France) to develop the olivine LiFePO4 and Li-Ti-O electrode materials for Liion batteries. His current research activities include developing new battery technologies beyond Li-ion, such as solid state ( Li-S, Li-air, Na, Mg, Ca) batteries. Dr. Zaghib has published 240 refereed papers and has 164 international patents. In addition, he has served as editor or coeditor of 17 books. He was organizer or co-organizer of 50 symposia, meetings, workshops. In June 2010, he was the General Chair of the International Meeting on Lithium Batteries (IMLB) in Montréal, Québec. Dr. Zaghib is very active in ECS, and served as the Chair of the Energy Technology Division (2007-2009). Dr. Zaghib has received the International Electric Research Exchange (IERE) Research Award (2008) in Iguaçu, Brazil, the International Battery Association (IBA) Research Award (January 2010), and was an elected ECS Fellow in 2011.

Corrosion Division H. H. Uhlig Award Mário Ferreira received his degree in chemical engineering from Instituto Superior Técnico (Technical University of Lisbon), Portugal, and his PhD in corrosion science and engineering from UMIST–The University of Manchester Institute of Science and Technology, UK, in 1981. In 1993, he received his “Agregaçãoˮ (Habilitation) title in chemical engineering, from Instituto Superior Técnico. He was a professor at Instituto Superior Tecnico from 1981 to 2001, when he moved to University of Aveiro where he is currently full professor of the Department of Materials and Ceramic Engineering (DEMaC). In 2011, he was nominated Director of DEMaC. From 2001 to 2009, he was also adjunct full professor of the chemical engineering department of Instituto Superior Técnico. Between 20032007, Dr. Ferreira served as Deputy Director-General for Higher Education in Portugal. Dr. Ferreira is a member of several scientific societies, including ECS, the Portuguese Order of Engineers, Portuguese Materials Society, Portuguese Society of Electrochemistry (cofounder), Institute of Corrosion (UK), International Society of Electrochemistry, National Association of Corrosion Engineers (NACE), and

Matsumae International Foundation (Japan). He is also a member of the European Federation of Corrosion, currently serving as a member of its Board of Administrators, and of the International Corrosion Council where he is the Portuguese delegate. Dr. Ferreira’s main scientific interests are focused on the study of materials degradation, protection self-healing coatings, semiconducting properties of passive films, development of advanced materials, and ecological processes for surface treatments. He has edited four scientific books, published 10 book chapters and more than 250 articles on scientific journals (h-index = 43), and has presented more than 300 communications at conferences. He was responsible for 55 R&D projects, totally or for the Portuguese participation, cofinanced by several national entities, by the European Commission (namely Framework Programmes), and NATO. He served in different scientific and advisory committees related to teaching and science management at national and international levels.

Electrodeposition Division Research Award Daniel Lincot graduated from the French engineering School ESPCI-Paristech. He started his research in the field of photovoltaics, in 1978, with a PhD in the field of cadmium telluride solar cells at the solid state physics laboratory of CNRS. After his PhD, he joined CNRS in 1980 as permanent researcher in the laboratory of electrochemistry and analytical chemistry of Ecole Nationale Supérieure de Chimie de Paris (Chimie-Paristech) and carried out a Doctorat es Sciences in the field of semiconductor's photelectrochemistry. At CNRS, Dr. Lincot also focused on the electrodeposition of semicondutors thin films with cadmium telluride, copper indium gallium diselenide and zinc oxide, with a focus on mechanistic studies in relation with material’s properties. He also carried out research on chemical bath deposition of sulfide semiconductors. These methods were successfully applied in the field of photovoltaics and led to the creation of the Institute of Research and Development of Photovoltaic Energy in 2005, which is now one of the most advanced research centers in the field of thin film photovoltaics. Dr. Lincot received the silver medal of CNRS in 2004. In 2011, he received the Charles Eichner Prize of the French Society of Metallurgy and Materials (SF2M) for his achievments. He has published about 250 papers in international journals, given about 200 invited conferences, and deposited numerous patents.

High Temperature Materials Division J. Bruce Wagner, Jr. Award Paul E. Gannon grew up in Montana and earned BS and PhD degrees in chemical engineering at Montana State University (MSU) in 2002 and 2007, respectively. During his degree programs, he also held undergraduate and post-graduate research fellowships at Pacific Northwest National Laboratory in Richland, Washington, and worked as a research associate at Arcomac Surface Engineering, LLC in Bozeman, Montana. In 2008, he accepted a faculty position in the Chemical and Biological Engineering (ChBE) department at MSU, where he has remained since. At MSU Paul founded and directs the High-Temperature Materials Laboratory (HTML) within the ChBE department. The HTML supports both fundamental and applied research into the behavior of materials in extreme environments relevant to energy conversion systems. Projects include: high-temperature corrosion of metallic, ceramic and composite components within fuel cells, gas turbines, boilers, batteries and related systems; high-temperature corrosion protection via thin film surface coatings; and, high-temperature corrosion within ultra-purity poly-crystalline silicon production environments–upstream of photovoltaic and other semiconductor device manufacturing. Since 2008, the HTML at MSU has supported a full-time research engineer, one post-doc, six graduate students, six Meeting Program l October 27–November 1, 2013 l San Francisco, CA

international visiting students, and over 30 undergraduate students. The HTML has also generated over $1.2M in research funding from various federal, state and industry sources, and published over 20 research manuscripts in peer-reviewed journals. Dr. Gannon has instructed over 1,200 students at MSU since 2009. He developed and instructs a 200-level university science core course, “Energy and Sustainability”, which grew from 48 to 180 students per semester. He authored a textbook to facilitate this course, and similar courses elsewhere entitled, Introduction to Energy, Environment and Sustainability, 2nd Ed., published by Kendall Hunt in 2013. He also instructs “Chemical Engineering Thermodynamics” and “Materials Properties and Structures.” Dr. Gannon earned the MSU Excellence Award for Undergraduate Research Mentorship in 2011, a Certificate of Teaching Enhancement in 2012, and was nominated for the MSU Provost’s Awards for Excellence in Teaching and Undergraduate Research Mentoring in 2012 and 2013. He has also been a longstanding member of the ECS High Temperature Materials Division, and recently initiated an ECS student chapter at MSU.

Europe Section Heinz Gerischer Award Arthur J. Nozik is a Senior Research Fellow Emeritus (as of 2012) at the U.S. DOE National Renewable Energy Laboratory (NREL), a Research Professor in the Department of Chemistry and Biochemistry at the University of Colorado, Boulder, and a founding Fellow of the NREL/University of Colorado Renewable and Sustainable Energy Institute. He served as Associate Director of a DOE LANL/NREL Energy Frontier Research Center (Center for Advanced Solar Photophysics) from 2009 to 2012. Between 2006 and 2009 he was scientific director of the Colorado Center for Revolutionary Solar Photoconversion.

Dr. Nozik received a BChE from Cornell in 1959 and a PhD in Physical Chemistry from Yale in 1967. Before joining NREL in 1978, then known as the Solar Energy Research Institute (SERI), he conducted basic materials chemistry research in industry. Dr. Nozik’s research interests include size quantization effects in semiconductor nanocrystals and quantum wells, including multiple exciton generation from a single photon in quantum dots and via singlet fission in molecules; next generation solar photon conversion to electricity and solar fuels; photogenerated hot carrier effects and relaxation dynamics photomaterials; photoelectrochemistry of semiconductor-molecule interfaces; photoelectrochemical energy conversion; photocatalysis; optical, magnetic, and electrical properties of solids; and Mössbauer spectroscopy. Dr. Nozik has published over 250 papers and book chapters in these fields, written or edited five books, holds eleven U.S. patents, and has delivered over 350 invited talks at universities, conferences, and symposia. He has served on numerous scientific review and advisory panels, chaired and organized many international and national conferences, workshops, and symposia. He has received several awards in solar energy research, including the 2011 ACS Gustavus Esselen Award at Harvard University, the 2008 Eni Award (hosted by the President of Italy), and the 2002 ECS Energy Technology Division Research Award. Dr. Nozik has been a Senior Editor of The Journal of Physical Chemistry (1993-2005) and is on the editorial advisory board of the Journal of Energy and Environmental Sciences and Nanoenergy. A Special Festschrift Issue of The Journal of Physical Chemistry honoring Dr. Nozik’s scientific career appeared in the December 21, 2006 issue. He is a Fellow of the American Physical Society, the American Association for the Advancement of Science, and the Royal Society of Chemistry; he is also a member of ECS, the American Chemical Society, and the Materials Research Society.

Meet ECS Editors and Staff at the ECS Publications — Author Information Session Tuesday, October 29, 2013, 1700-1800h ECS Fall Meeting, San Francisco, CA Yosemite B, Tower 2, Ballroom Level

Questions? ECS has answers for you…

Fall—Winter 2012

VOL. 21, NOS. 3-4 Fall–Winter 2012

IN THIS ISSUE 3 From the Editor:

Biomimetic or Bioinspired?

9 From the President:

Weathering the Storm

…Discover the easy way to submit your abstract and navigate the new submission system. …See how to submit your meeting presentation to ECS Transactions. …Learn about ECS journals’ continuous publication model—your article, online, fast! …Determine which ECS peer-reviewed journals are best for your latest research …Hear about the latest Focus Issues for the ECS journals. …Get an inside view on how Interface articles are selected. …Learn about (and suggest topics for) upcoming ECS monographs. …Find out more about becoming a reviewer for the ECS journals.

11 Pennington Corner: The Weston Legacy

13 Redcat: ECS Launches

Networking and Research Site for Scientists

17 Candidates for Society Office

19 PRiME, Honolulu, Hawaii: Meeting Highlights

58 Tech Highlights 61 Conducting Polymers

and Their Applications

63 Novel MEMS Devices Based on Conductive Polymers

67 Nanoparticle-doped

Electrically-conducting Polymers for Flexible Nano-Micro Systems

S pecial i SSu e

o n ...

VOL. 21, NO. 3-4

Conducting Polymers and Their Applications

71 Electrochemical Assay

of GSTP1-related DNA Sequence for Prostrate Cancer Screening

88 ECS Summer Fellowship Reports

107 San Francisco, CA: Call for Papers

Come to the Author Information Session during the ECS fall meeting in San Francisco where you’ll get the answers to these and many more questions. We’ll help you to get your work published in the best publications for electrochemistry and solid state science and technology.

Journal of The Electrochemical Society (JES) l ECS Journal of Solid State Science and Technology (JSS) ECS Electrochemistry Letters (EEL) l ECS Solid State Letters (SSL) l Electrochemical and Solid-State Letters (ESL) Meeting Program l October 27–November 1, 2013 l San Francisco, CA ECS Transactions (ECST) l ECS Meeting Abstracts l Interface 15

San Francisco Travel Association photo by P. Fuszard.

2013 224th ECS Meeting Summit: October 27-28, 2013 Hilton San Francisco

his two-day summit is designed to foster an exchange between leading policy makers and energy experts about societal needs and technological energy solutions.

Sunday, October 27 Programs and Events

Afternoon, starting at 1500h Robert Glass, Senior Scientist in the Physical and Life Sciences Directorate at Lawrence Livermore National Laboratory, will introduce three invited speakers and coordinate corresponding Questions & Answers.

Speakers Congressman Jerry McNerney, (invited), 9th District of California, is the only renewable energy expert in Congress and sits on the U.S. House Committee on Energy & Commerce, as well as several subcommittees.

Heather Cooley, Co-Director of the Pacific Institute’s Water Program, will speak about The Water–Energy Nexus: Opportunities and Challenges.

Meredith Younghein, State Water Resources Control Board and the Energy Division of the California Public Utilities Commission, will focus on Program and Policy Innovations at the Water–Energy Nexus.

Early evening, 1730h-1830h Energy Research Group Showcase, Student Poster Session, and Reception with light refreshments An up-close look at the research that professional groups and students are conducting in all areas of energy efficiency. With an estimated 65% of the work of the ECS community focused on sustainability issues, our researchers and engineers play an important and relevant role in discovering solutions for current energy challenges.

Meeting Program www.electrochem.org

October 27–November 1, 2013 l San Francisco, CA

Monday, October 28

The Energy–Water Nexus Symposium (A3) The morning program will include invited speakers who will examine the role of electrochemistry in addressing the energy–water nexus, from policy considerations to scientific breakthroughs. Moderators Eric Wachsman, Director of the University of Maryland Energy Research Center (UMD), is the William L. Crentz Centennial Chair in Energy Research with appointments in both the Department of Materials Science and Engineering and the Department of Chemical Engineering at UMD. Carl Hensman joined the Water, Sanitation, and Hygiene team within the Global Development Program of the Bill & Melinda Gates Foundation in January 2012. Prior to joining the foundation, Dr. Hensman was an Energy Program Manager for King County, Washington (Seattle) focusing on resource recovery in the Wastewater Treatment Division.

Speakers and Presentations Water and Energy Nexus Mike Hightower, Distinguished Member of the Technical Staff, Energy Surety Engineering and Analysis Department at Sandia National Laboratories.

Effects of Climate Change on Water Availability Antonio Busaliacchi, Earth System Science Interdisciplinary Center, University of Maryland, and Presidential Rank Meritorious Executive Award recipient.

Technical and Economic Opportunities for Water Purification and Sensing for WHO Development Goals Amul Tevar, U.S. Department of Energy and ARPA-E Fellow.

Development of a Self-Contained, PV-Powered Domestic Toilet and Wastewater Treatment System Michael Hoffman, California Institute of Technology, and 2012 Distinguished Visiting Fellow of the Royal Academy of Engineering, Global Vision Scholar at Tsinghua University. Energy–Water Nexus Research and NSF Bruce Hamilton, Program Director, National Science Foundation (NSF), and recipient of the NSF Director's Award for Meritorious Service.

The mid-day program will include a panel discussion and complimentary lunch with the moderators and invited speakers. The early evening program will include the Plenary Session & The ECS Lecture

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

The afternoon program will include all of the scheduled A3 Technical Sessions.

America’s Energy Future: Science, Engineering, and Policy Challenges Mark S. Wrighton, 14th Chancellor of Washington University, St. Louis, and Past Provost of the Massachusetts Institute of Technology.

Visit www.electrochem.org/e2s for complete biographies and more information.

Your Article. Online. FAST! Quality peer review. Continuous publication. No page charges. u ECSâ&#x20AC;&#x201D;the only nonprofit society publisher in its field. u High-impact research and technical content areas. u Authors do not pay page charges. u Immediate and worldwide dissemination of content to more than 1,000 academic, research, and corporate libraries. u Visibility and discoverability on a leadingedge, innovative platform. u FOCUS ISSUES devoted to critical, highprofile research that offer state-of-the-science summaries and perspectives.

Get published FAST! Submit your manuscript now at

ecsjournals.msubmit.net

The Electrochemical Society

Leading the world in electrochemistry and solid state science and technology for more than 110 years

18 Meeting Program

www.electrochem.org

May 12-16, 2013

Toronto, ON, Canada

www.ecsdl.org

Meeting Program l October 27â&#x20AC;&#x201C;November 1, 2013 l San Francisco, CA 1

Floor Plan—Hilton San Francisco

TECHNICAL EXHIBIT & POSTER SESSION

REG

ISTR

ECS HEA DQU ART ERS

ATIO

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Technical Exhibit The ECS Technical Exhibit is always the talk-of-the-meeting—technical exhibits offer a popular networking opportunity as attendees gather together with colleagues and meet new contacts. The exhibitors in San Francisco will showcase instruments, materials, systems, publications, and software, and other products and services, and many will provide demonstrations. Complimentary coffee breaks are scheduled on Wednesday and Thursday at 0930h in the Exhibit Hall. In addition, the Poster Sessions and receptions will be held in the Exhibit Hall on Tuesday and Wednesday evenings, beginning at 1800h.

Exhibit Hours Grand Ballroom, Grand Ballroom Level Tuesday, October 29 Daytime...................................................................... 1300-1600h Evening, includes the General & Student Poster Sessions and Reception................................... 1800-2000h Wednesday, October 30 Daytime, includes morning Coffee Break.................. 0900-1400h Evening, includes the General Poster Session and Reception............................................................. 1800-2000h Thursday, October 31 ................................................... 0900-1200h includes morning Coffee Break

ECS Welcomes our Exhibitors* Agilent Technologies Booth 303 Joan Horwitz joan_horwitz@agilent.com 4330 W Chandler Blvd. Chandler, AZ 85226 1.480.256.5900 USA www.agilent.com

The Agilent 5500 AFM is the only commercially available scientificgrade AFM system specifically engineered from the ground up for advanced electrochemistry at the nanoscale (sub-10-nm resolution). The modular platform design incorporates EC-STM & EC-AFM with true built-in environmental isolation chamber giving researchers comprehensive control of gaseous environments for in-situ experiments.

ALS CO., LTD. Booth 113 Katsunobu Yamamoto yamamoto@bas.co.jp 1-28-12, Mukojima Sumida-Ku, Tokyo, 131-0033 +81.3.3624.3387 Japan www.als-japan.com

ALS Co., Ltd. provides researchers with a wide range of products including Bipotentiostats, Electrochemical Quartz Crystal Microbalances (EQCM), Ring-Disk Electrode apparatus (RRDE-3A) and Spectrometry instruments (SEC2000). We are also dealing with various kinds of Spectroelectrochemical cells (SEC-C & SEC-2F), Electrodes for conductivity measurement and Electrodes for EC measurement same as their related items. We sincerely hope that you will absolutely enjoy our cost-effective and highly quality products with our sincere-integrity support.

Applied Spectra Inc. Booth 202 Lisa Riddel accounting@appliedspectra.com 46665 Fremont Blvd. Fremont, CA 94538 1.510.657.7679 USA www.appliedspectra.com

Applied Spectra, Inc. (ASI) is a leading supplier of analytical instruments based on laser ablation technology. Our J200 LIBS (Laser Induced Breakdown Spectroscopy), LA (Laser Ablation), and Tandem LA – LIBS instrument offers rapid elemental and isotopic analysis without sample preparation. ASI’s innovative analytical products are accelerating material characterization research for thin film solar cells, Li ion batteries, LCD displays, and LED & other light emitting devices. ASI’s products are also helping our industry customers implement efficient and effective QC monitoring for their manufacturing processes. Our instruments are accompanied by unrivaled technical support via our staff’s more than 80 years’ experience in LIBS and LA-ICP-MS analysis.

Arbin Instruments Booth 404 Stephen Parker stephen.p@arbin.com 762 Peach Creek Cut Off. College Station, TX 77845 1.979.690.2751 USA www.arbin.com

Arbin has over 20 years of experience as a manufacturer of multichanneled potentiostat/galvanostat testing systems for battery and electrochemical research. Compared to traditional potentiostats, Arbin can offer many testing channels per system, the ability to reach much higher power as your research scales up, and the software flexibility required to write custom test profiles for evaluating materials and simulating actual battery applications. We continue to lead the way in innovation and customer support.

Beijing Mikrouna Booth 414 Sam Cai caioyuling@mikrouna.cn Dongbeiwang West Rd. Beijing +86.10.6858.8245 China www.mikrouna.cn

As a fast-growing high-tech company, Mikrouna designs and manufactures controlled inert atmosphere glove box systems and gas purifications systems to maintain less than 1ppm of O2 and H2O for handling air sensitive material. Mikrouna has 15 years of manufacturing experience; with a factory set up in Gloucester MA for glove box assembly and technical service, Mikrouna offers custom Glove Boxes tailored to individual requirements. Mikrouna’s high-quality products, cost-effective pricing and excellent service offer great benefits for US clients.

*Exhibitors at press time. 20

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Bio-Logic

ESL ElectroScience

Booths 110,112,114

Booth 215

David Carey david.carey@bio-logic.us 9050 Executive Park Drive, Suite 105C Knoxville, TN, 37923 1.865.769.3800 USA www.bio-logic.us

Drew Chambers dchambers@electroscience.com 416 E Church Rd. King of Prussia, PA 19406 1.610.272.6759 USA www.electroscience.com

Bio-Logic is the exclusive provider of EC-Lab Electrochemical Measurement Instruments. The EC-Lab family of products includes modular single-channel (SP-50/150/200/300) and multi-channel (VSP/ VMP3/VSP-300/VMP-300) potentiostats/galvanostats, High current potentiostats (HCP-803/1005) and easy to use software with a complete line of electrochemical accessories. At ECS, we will proudly have on display the most powerful multi-channel potentiostat on the market. The VMP-300 is capable of having up to 16 independent potentiostats in one chassis, with optional current boosters of 1A/48V, 2A/30V, 4A/14V or 10A/5V, measuring currents down to 5 fA, voltages down to 750 nV, performing EIS experiments up to 7 MHz, analog and digital filtering, and true floating mode operation. All of this at a great economical price/ performance. Come to booths 133, 134, & 135 and see our exciting line of products.

ESL ElectroScience specializes in providing solutions to enable customers to take technologies from concept through high volume production using thick film pastes and ceramic tapes. ESL products can be found in hybrid microcircuits, multilayer microelectronics, transformers, thick film heaters, sensors, and fuel cells. Founded in 1962, ESL ElectroScience has continued to create manufacturable solutions for the past 50 years.

ChemTrace Booth 203 Surjany Russell surjany.Russell@chemTrace.com 44050 Fremont Blvd. Fremont, CA 94538 1.510.687.8012 USA www.ChemTrace.com

Founded in 1993, ChemTrace provides state–of–the–art analytical services and problem solving expertise to improve current technologies in semiconductor, solar, and medical device manufacturing. We understand the needs of our customers and create a customized approach to problem solving analytical solutions. Clients’ needs are fulfilled by the combined experience of our highly qualified chemists, engineers, and technologists. Our personnel interacts closely and regularly with our engineers, internal laboratory and R&D staff, field operators, chemists and physicists to provide accurate and reliable information on the composition, characterization and trace level impurities of samples sent to our laboratory for analysis.

ECS Booths 410, 412 Dan Fatton dan.fatton@electrochem.org 65 South Main Street, Bldg. D Pennington, NJ 08534 1.609.737.1902 USA www.electrochem.org

For more than 110 years, ECS, an international nonprofit, educational organization, has led the advancement of electrochemistry and solidstate science and technology research. ECS membership includes more than 9,000 scientists in over 70 countries, and approximately 100 corporations and government labs. Bridging the gaps in academia, research, and engineering, ECS provides an unparalleled forum for the integration of these areas of science and technology through its technical meetings and publications, and networking opportunities.

EL-CELL GmbH Booth 107 Johannes Hinckeldeyn Johannes.Hinckeldeyn@el-cell.com Tempowerkring 8 Hamburg 21079 +49.40.790.12.733 Germany www.el-cell.com

Evans Analytical Group Booth 307 Cindy Gentile cgentile@eaglabs.com 810 Kifer Rd. Sunnyvale, CA 94086 1.408.530.3500 USA www.eag.com

Evans Analytical Group (EAG) is the global leader in materials characterization and surface analysis services. Measurements available include: SEM, TEM, GDMS, ICP-MS, XRD, Auger, XPS, TOF-SIMS, and XRF. EAG provides fast turn-around time, superior data quality and excellent results from over 15 labs in the US, Europe and Asia.

Gamry Instruments Booths 204 & 206 Wanda Dasch wdasch@gamry.com 734 Louis Drive Warminster, PA 18974 1.215.682.9330 USA www.gamry.com

Gamry Instruments designs and manufacturers a variety of electrochemical instrumentation and accessories. Our full line of single and multichannel potentiostats/galvanostats/ZRAs/FRAs, EQCM, multiplexer, and spectroelectrochemical equipment will be on display. Anyone doing materials research or battery development, corrosion science, sensor development or fundamental physical electrochemical research should stop by our booth for a demonstration. Come find out why Gamry is the best value in electrochemical instrumentation.

Gelest Inc. Literature Display Gabrielle Lockwood info@gelest.com 11 E. Steel Rd. Morrisville, PA 19067 1.215.547.1015 USA www.gelest.com

Gelest, Inc. is headquartered in Morrisville, Pennsylvania, and is recognized worldwide as an innovator, manufacturer and supplier of commercial and research quantities of organosilicon compounds, metalorganic compounds and silicones. Gelest serves advanced technology markets through a materials science-driven approach. The company provides focused technical development and application support for semiconductors, optical materials, pharmaceutical synthesis, diagnostics and separation science, specialty polymeric materials and cosmetics: “Gelest – Enabling Your Technology.” (continued on next page)

EL-CELL supplies scientists and industry with lab-scale electrochemical equipment for battery electrode manufacture and testing. The main focus is on Li-ion battery chemistry. Within this area, EL-CELL offers a wide range of products and services; different kind of test cells, tools, consumables, on-site trainings and turn-key solutions for battery research. Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Technical Exhibit

(continued from previous page)

Heka Electronics Booth 402 Janie Dolzer marketing@heka.com 643 Hwy 14 Chester, NS B0J 1J0 1.902.624.0606 Canada www.heka.com

For over forty years, HEKA has been among the market leaders in patch clamp systems and a major player in electrochemistry equipment. Throughout these years there have been many changes in research, instrumentation and software. HEKA's goal has always been to drive this progress and shape those changes, while remaining committed to our most important business partner, our customer. Recent product launches include the Imaging Extension Software, the ElProScan Advanced Scanning Electrochemistry Microscopes, and the iTEV 90 Computerized Two-electrode Clamp Amplifier. HEKA's established portfolio of patch clamp and electrochemistry systems, interfaces and software enjoys increasing popularity in the scientific community.

Horiba Scientific Booth 201 Diane Surine diane.surine@horiba.com 3880 Park Ave. Edison, NJ 08820 1.732.494.8660 USA www.horiba.com

HORIBA Scientific, world leader in spectroscopic instrumentation, offers elemental analyzers, GD-OES Spectrometers, and products for Raman, steady-state and lifetime Fluorescence, Photoluminescence, XRF, spectroscopic ellipsometry, atomic emission spectroscopy, optical components, gratings and high performance CCDs. We specialize in Glow Discharge and Raman spectrometers and their application for analysis of Li Ion batteries.

Ivium Technologies Booth 306 Pete Peterson info@ivium.us 961687 Gateway Blvd., Suite 201D Fernandina Beach, FL, 32034 1.800.303.3885 USA www.ivium.us

Ivium Technologies designs and manufactures instrumentation for the most demanding electrochemical applications. We will be demonstrating the pocketSTAT™ Potentiostat – a handheld potentiostat capable of all DC electrochemical techniques and EIS. We are exhibiting the Vertex™, the CompactStat™, and the IviumStat™ Potentiostats in San Francisco. The Vertex is an affordable instrument for research and teaching applications. The IviumStat™ -- with a maximum current of 10 Amps -- is a general purpose instrument for the widest breadth of electrochemical applications. For the convenience of portability, check out the CompactStat™, a researchgrade Potentiostat powered from the USB Port of your Notebook Computer. We will also be showing the nStat™ MultiChannel Potentiostat for labs that require maximum sample throughput.

Maccor, Inc. Booths 100 & 102 Mark Hulse m.hulse@maccor.com 4322 S 49th W Ave. Tulsa, OK, 74107 1.918.446.1874 USA www.maccor.com

Maccor, Inc. is The Right Choice for all of your energy storage testing needs. The founders of Maccor designed and built their first computer based automated test system in 1983 for use in the development of a re-chargeable Lithium battery. Many consider Maccor to be the pioneer of the modern commercial battery test industry. Maccor’s strong nucleus of engineers experienced in emerging battery technologies and computer control systems has enabled the company to experience continued and rapid growth. Today, Maccor designs and manufactures an extensive range of automated test equipment, cell formation systems, recertification equipment, and materials research equipment for all energy storage devices. Maccor’s range of equipment not only provides standard discharge and cycle testing but is capable of sophisticated drive cycle tests (i.e. FUDS, HPPC, US06 Drive Profile, etc.) and electrochemical experiments (i.e. Cyclic Voltammetry, Galvanostatic Intermittent Titration Test, Potentiostatic Intermittent Titration Test, etc.) along with sophisticated pulse testing, together with high-speed data acquisition and the option of interfacing with smart battery packs. In addition 3-electrode and AC impedance experiments can be performed. Today Maccor has over 1,500 systems in operation in more than 45 countries.

Materials Research Society Literature Display www.mrs.org

The Materials Research Society (MRS) is an organization of almost 16,000 materials researchers from academia, industry and government that promotes communication for the advancement of interdisciplinary materials research to improve the quality of life. MRS members are professionals from physics, chemistry, biology, mathematics and engineering—the full spectrum of materials research. Headquartered in Warrendale, Pennsylvania (USA), MRS membership now spans over 80 countries, with more than 40% of members residing outside the United States. In addition to its communications and publications portfolio, MRS organizes high-quality scientific meetings, attracting over 13,000 attendees annually and facilitating interactions among a wide range of experts from the cutting edge of the global materials community. MRS is also a recognized leader in education outreach and advocacy for scientific research.

Metrohm USA Booths 104 & 106 Karen Poe info@metrohmusa.com 6555 Pelican Creek Circle Riverview, FL, 33578 1.813.316.4700 USA www.metrohmusa.com

Metrohm featuring AUTOLAB electrochemistry systems with modular and dedicated designs, and advanced control software which provide a flexible foundation that can easily grow with your application needs. Options include low current, impedance, EQCM, multiplexing, high and low speed scanning, and variety of cells, electrodes and accessories for research needs.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

MTI Corporation

Pine Research Instrumentation

Booths 213 & 312

Booths 109 & 116

Mel Jiang mel@mtixtl.com 860 South 19th Street Richmond, CA 94804 1.510.525.3070 USA www.mtixtl.com

Jenny Garry jgarry@pineinst.com 2741 Campus Walk Ave., Bldg. 100 Durham, NC, 27705 1.919.782.8320 USA www.pineinst.com/echem

Since 1995 MTI has been providing a total solution for materials research labs, such as crystal substrates, cutter, polisher, high temperature box/tube furnaces, pressing machine, CIP, film coaters, glove boxes, high vacuum system, RTP furnaces, multi-channel gas mixing system as well as compact XRD and equipment for battery research.

Pine Research Instrumentation manufactures a full line of electrochemical products. Researchers in both academic and industrial settings appreciate the use of our modulated speed rotator and rotating electrodes. Our potentiostat line features the new WaveDriver Bipotentiostat/Galvanostat benchtop system. This has a simple USB interface to a PC and features all traditional electrochemical techniques. All Pine potentiostats operate with our powerful AfterMath Data Organizer software. AfterMath controls the instrument but also integrates features such as MSR rotator control, easy to use analysis tools, specialized electrochemical techniques, and intuitive graphing control options.

Onda Corporation Booth 400 Petrie Yam py@ondacorp.com 1290 Hammerwood Ave. Sunnyvale, CA 94086 1.408.745.0383 USA www.ondacorp.com

Onda Corporation is the global leader in ultrasound measurement instrumentation and services. Decades of engineering have culminated into a suite of measurement instruments used to acoustically characterize and control complex industrial and medical devices, including advanced ultrasonic and megasonic cleaning systems. Beyond its product line, Onda also offers a broad range of services that include the design, development, manufacturing, and testing to support and accelerate your ultrasound needs.

Palm Sens BV Booth 207 Conrad Chapman conrad@palmsens.com Wijde Begijrestraut 27 Utrecht AW3512 +31.302.459211 Netherlands www.palmsens.com

With over 10 years of experience and innovation we specialize in making small, portable potentiostats and servicing OEM markets. Our main products are:

Princeton Applied Research/Solartron Analytical Booths 101, 103, & 105 Ari Tampasis aritampasis@ametek.com 801 South Illinois Ave. Oak Ridge, TN 37830 1.865.483.2122 USA www.princetonappliedresearch.com

Princeton Applied Research is a leading manufacturer of laboratory instruments utilized for investigations in the field of electrochemistry, which includes batteries, fuel cells, corrosion, sensors and general physical chemistry. In business more than 50 years, we offer customers the benefit of knowledge, expertise, products, and solutions to support their particular research interest. Solartron Analytical is the global leader in Electrochemical Impedance Spectroscopy, providing more than 60 years of instrumentation development expertise for materials and electrochemical research. Solartron Analytical instruments and accessories are advancing the research into the physical and electrochemical properties of batteries, fuel cells, organic coatings, corrosion inhibitors, and sensors, as well as the characterization of materials for dielectrics, solar cells, display technologies, ferroelectrics, and composites.

ProSys Inc.

• The PalmSens: Potentiostat/galvanostat with ZRA and

Booth 406

• The EmStat: Smallest potentiostat available in the market. • The MultiEmStat: Has up to 12 individually or

Kathryn Theodore kytc@prosysmeg.com 1745 Dell Ave. Campbell, CA 95008 1.408.871.2500 USA www.prosysmeg.com

now EIS.

simultaneously controllable potentiostats.

PEC North America Inc. Booth 212 Peter Ulrix Peter.ulrix@peccorp.com 2385 NW Executive Center Drive #100 Boca Raton, FL 33431 1.561.962.2824 USA www.peccorp.com

ProSys, Inc. designs and manufactures single wafer, Batch, and custom Megasonic systems and components for OEM’s and end users. Applications include high end cleaning and surface preparation as well as Megasonic enhanced development, etching, and fluid conversion. Our technology features advanced RF controls, multiple frequencies, continuous or pulsed operation Direct Megasonics with data logging software. (continued on next page)

PEC delivers the building blocks for the development and manufacturing of large format cells, modules and battery packs for automotive, aerospace and defense applications. PEC’s offerings include R&D test equipment and automated cell finishing lines automating all process steps after the electrolyte filling (soaking, formation, grading, degassing, ageing, stand loss, sorting…).

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Redcat

Tanaka Kikinzoku Kogyo K. K.

Booths 311 & 313

Booth 315

www.redcatresearch.org

Yoshikazu Sato YO-SATO@ml.tanaka.co.jp 2-14, Nagatoro, Hiratsuka Kanagawa, 254-0021 +81.463.22.4324 Japan www.pro.tanaka.co.jp/en

Redcat is the essential online tool and meeting place for everyone in electrochemistry and solid state science and technology...

• • • •

Browse + search cutting-edge research Meet + connect with peers Contribute + share your contents and ideas Connect with future employers + employees on the Redcat jobs site Redcat is your Web of Connections...Redcat is yours – OWN IT!

RheoSense, Inc.

Tanaka Kikinzoku Group has contributed to the society through the continuous pursuit of the inherent possibilities of precious metals for over 120 years. Our activities are sales of Precious Metals (Platinum, Gold, Silver, and others). We also manufacture sales of Industrial Precious Metal Products.

Toshima Manufacturing Co., Ltd.

Booth 205

Booth 301

Seonggi Baek sbaek@rheosense.com 2678 Bishop Dr Suite 270 San Ramon, CA 94583 1.925.866.3801 USA www.rheosense.com

Hidefumi Motobayashi motobayashi@material-sys.com 1414, Shimonomoto, Higashimatsuyama-shi Saitama, 355-0036 +81.493.24.6774 Japan www.material-sys.com

RheoSense is a global high-tech company based in Silicon Valley. Our innovative m-VROC & microVISC instruments feature patented Viscometer/Rheometer-on-a-Chip (VROC) technology. Utilizing state-of-the-art MEMS and microfluidics breakthroughs that redefine the viscometry industry, our instruments offer the smallest sample volume per measurement coupled with exceptional ease-of-use and accuracy. RheoSense instruments have been rigorously tested, approved, and adopted worldwide by Fortune Global 500 companies and leading research universities.

We Toshima Manufacturing Co., Ltd. are the manufacturer of sputtering target for several categories of electron field like Battery, Energy, Optoelectrics, Ferroelectrics, Superconductor. We have nearly 20 years of business history providing materials for above fields. We always challenge in provide new type material and believe it makes you satisfactory.

Scribner Associates, Inc. Booth 200 Jason Scribner jason@scribner.com 150 E Connecticut Ave. Southern Pines, NC 28387 1.910.695.8884 USA www.scribner.com

Scribner Associates specializes in advanced analytical hardware and software for electrochemical research and development. Our software packages such as ZPlot, ZView, MultiStat and CorrWare are recognized world-wide as the gold standard for instrument control and data analysis. On display will be the Model 850e Fuel Cell Test System, a turn-key instrument for PEM, DMFC and SOFC R&D. The 850e features multiple current ranges for high accuracy over a wide dynamic range, automated humidifier bypass valves for wet/dry cycling, automatic humidifier water fill, manual or automated inlet selector valves, integrated potentiostat functions, and accurate dew point control up to 5 SLM. The 850e is now CE certified. Scribner is pleased to introduce the Model 580 8-Channel Battery Cycler. The 580 is specifically designed for battery and capacitor discharge cycling and offers CC, CV, CP, and CR modes, 6 current ranges, cell resistance by HFR, 5-wire terminal measurement, and comes with user friendly software for instrument control and data analysis. All of our products are available for quick delivery and are backed by comprehensive technical support.

Stanford Research Systems

Vigor Gas Purification Technologies Booth 314 Dan Vizine dvizine@verizon.net 88 Broadmoor Dr. Tonawanda, NY 14150 716.693.5744 USA www.pro.tanaka.co.jp/en

Vigor Gas Purification Technologies is a manufacturer of advanced design gloveboxes and gas purification equipment. Our state of the art features and the extremely low leakage rate of our gloveboxes, due to our patented seal technology, set us apart from other manufacturers. We are currently offering exceptional discounts to encourage you to experience our advanced gloveboxes.

ULVAC Technologies Booth 304 Evan Sohm esohm@us.ulvac.com 401 Griffin Brook Dr. Methuen, MA 01844 1.978.686.7550 USA www.ulvac.com

Nanoparticle catalysts made using the ULVAC APD arc plasma deposition system show superior electrochemical performance compared to commercially available catalysts. Size controlled and stable nanoparticles are easily produced onto various powder or membrane substrates using only 1/10th the amount of precious metal with this dry, in-vacuum coating process.

Booth 300 Janie Du janied@SRS.com 1290-D Reamwood Dr. Sunnyvale, CA 94089 1.408.744.9040 USA www.thinkSRS.com

Stanford Research Systems (SRS) will exhibit our EC301 potentiostat/ galvanostat , QCM200 5MHz quartz crystal microbalance, and SR780 dynamic signal analyzer for EIS. The EC301 features 30V/1A compliance, ±15V polarization range, and 1 MHz control loop bandwidth. Instrument control is via Ethernet, GPIB, or its comprehensive front panel. Fully featured software is included. 24

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

ECS Thanks our

Sponsors

for their Generous Support

Gold Sponsors

Silver Sponsor

Bronze Sponsors

For more information on sponsorship opportunities with ECS, please contact Dan Fatton, Director of Development, 609.737.1902 ext. 115 or dan.fatton@electrochem.org.

Meeting Program l October 27â&#x20AC;&#x201C;November 1, 2013 l San Francisco, CA

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VOL. 21, NOS. 3-4 Fall–Winter 2012

IN THIS ISSUE 3 From the Editor:

Biomimetic or Bioinspired?

9 From the President:

Weathering the Storm

11 Pennington Corner: The Weston Legacy

13 Redcat: ECS Launches

Networking and Research Site for Scientists

17 Candidates for Society Office

19 PRiME, Honolulu, Hawaii: Meeting Highlights

58 Tech Highlights 61 Conducting Polymers

and Their Applications

63 Novel MEMS Devices Based on Conductive Polymers

67 Nanoparticle-doped

Electrically-conducting Polymers for Flexible Nano-Micro Systems

S pecial i SSu e

www.electrochem.org 26

VOL. 21, NO. 3-4

www.ecsdl.org

If you haven’t visited the ECS Digital Library recently, please do so today!

o n ...

Conducting Polymers and Their Applications

71 Electrochemical Assay

of GSTP1-related DNA Sequence for Prostrate Cancer Screening

88 ECS Summer Fellowship Reports

107 San Francisco, CA: Call for Papers

Not an ECS member yet? Start taking advantage of member benefits right now!

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Leading the world in electrochemistry and solid state science and technology for more than 110 years

ECS Editorial Boards Electrochemical Science & Technology (EST)

Nick Wu, Sensor Division Representative

Robert Savinell, Editor

Andrew Hillier, Physical & Analytical Electrochemistry Division Representative

Gerald S. Frankel, Technical Editor Thomas F. Fuller, Technical Editor Charles L. Hussey, Technical Editor Shelley D. Minteer, Technical Editor Rangachary Mukundan, Technical Editor

Andrew Hoff, Electronics and Photonics Division Representative Luis Echegoyen, Fullerenes, Nanotubes, and Carbon Nanostructures Division Representative Bor Yann Liaw, Battery Division Representative

Dennis G. Peters, Technical Editor

Durga Misra, Dielectric Science and Technology Division Representative

John Weidner, Technical Editor

Mani Manivannan, Energy Technology Division Representative

Martin Winter, Technical Editor

Shinji Fujimoto, Corrosion Division Representative

Doron Aurbach, Associate Editor

John Staser, Industrial Electrochemistry & Electrochemical Engineering Division Representative

Thierry Brousse, Associate Editor Raymond J. Gorte, Associate Editor Takayuki Homma, Associate Editor Venkat Srinivasan, Associate Editor

Solid State Science & Technology (SSST) Dennis W. Hess, Editor Jennifer A. Bardwell, Technical Editor Stefan De Gendt, Technical Editor

Giovanni Zangari, Electrodeposition Division Representative

ECS Transactions Jeffrey W. Fergus, Editor D. Noel Buckley, Electronics and Photonics Division Representative James Burgess, Organic and Biological Electrochemistry Division Representative Bryan A. Chin, Sensor Division Representative

Francis D’Souza, Technical Editor

Hugh De Long, Physical and Analytical Electrochemistry Division Representative

Yue Kuo, Technical Editor

James M. Fenton, Energy Technology Division Representative

Kailash C. Mishra, Technical Editor Rangachary Mukundan, Technical Editor

Turgut Gur, High Temperature Materials Division Representative

George Celler, Associate Editor

Robert Kostecki, Battery Division Representative

Interface

Kailash C. Mishra, Luminescence and Display Materials Division Representative

Krishnan Rajeshwar, Editor

Durgamadhab Misra, Dielectric Science and Technology Division Representative

Xiao-Dong Zhou, High Temperature Materials Division Representative

Elizabeth Podlaha-Murphy, Electrodeposition Division Representative

James Burgess, Organic and Biological Electrochemistry Division Representative

Sanna Virtanen, Corrosion Division Representative

Uwe Happek, Luminescence and Display Materials Division Representative

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

John Weidner, Industrial Electrochemistry and Electrochemical Engineering Division Representative R. Bruce Weisman, Fullerenes, Nanotubes and Carbon Nanostructures Division Representative

ECS Division Officers Battery

Fullerenes, Nanotubes, and Carbon Nanostructures

Bor Yann Liaw, Chair Robert Kostecki, Vice-Chair Christopher Johnson, Secretary Marca Doeff, Treasurer

R. Bruce Weisman, Chair Luis Echegoyen, Vice-Chair Slava V. Rotkin, Secretary Dirk Guldi, Treasurer

Corrosion

High Temperature Materials

Shini Fujimoto, Chair Rudy Buchheit, Vice-Chair Barbara A. Shaw, Secretary/Treasurer

Jeffrey Fergus, Chair Timothy Armstrong, Sr. Vice-Chair Xiao-Dong Zhou, Jr., Vice-Chair Gregory Jackson, Secretary/Treasurer

Dielectric Science and Technology Oana Leonte, Chair Dolf Landheer, Vice-Chair Vimal Desai Chaitanaya, Secretary Yaw Obeng, Treasurer

Industrial Electrochemistry and Electrochemical Engineering Gerardine Botte, Chair Venkat Subramanian, Vice-Chair E. Jennings Taylor, Secretary/Treasurer

Electrodeposition Giovanni Zangari, Chair Elizabeth Podlaha-Murphy, Vice-Chair Stanko Brankovic, Secretary Philippe Vereecken, Treasurer

Luminescence and Display Materials John Collins, Chair Baldassare Di Bartolo, Vice-Chair Anant A. Setlur, Secretary Madis Raukas, Treasurer

Electronics and Photonics Andrew Hoff, Chair Mark Overberg, Vice-Chair Edward Stokes, 2nd Vice-Chair Junichi Murota, Secretary Fan Ren, Treasurer

Organic and Biological Electrochemistry James Burgess, Chair Mekki Bayachou, Vice-Chair Graham Cheek, Secretary/Treasurer

Energy Technology

Physical and Analytical Electrochemistry

Adam Weber, Chair Scott Calabrese Barton, Vice-Chair Andrew Herring, Secretary Vaidyanathan Subramanian, Treasurer

Robert Mantz, Chair Pawel Kulesza, Vice-Chair Andrew Hillier, Secretary Alanah Fitch, Treasurer

Sensor Michael Carter, Chair Bryan Chin, Vice-Chair Nianqiang (Nick) Wu, Secretary Ajit Khosla, Treasurer

ECS Sections

D. Noel Buckley, Chair, Europe Section

Jason McLafferty, Chair, Pittsburgh Section

Candace Chan, Chair, Arizona Section

Sanjeev Mukerjee, Chair, New England Section

Isolda Costa, Chair, Brazil Section

Giselle Sandi, Chair, Chicago Section

Ignacio Gonzalez, Chair, Mexico Section

Irina Serebrennikova, Chair, Cleveland Section

Peter J. Hesketh, Chair, Georgia Section

Kimber Stamm Masias, Chair, Detroit Section

Takashi Ito, Chair, Japan Section

Yung-Eun Sung, Chair, Korea Section

Kallarackel Jacob, Chair, India Section

Jaroslaw Syzdek, Chair, San Francisco Section

Larry Krause, Chair, Twin Cities Section

Eric Wachsman, Chair, National Capital Section

Zi Feng Ma, Chair, China Section

Harovel Wheat, Chair, Texas Section

Daniel Mandler, Chair, Israel Section

Nae-Lih Wu, Chair, Taiwan Section

Janine Mauzeroll, Chair, Canada Section

Jose Zagal, Chair, Chile Section

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

ECS Student Chapters Atlanta Student Chapter at Georgia Tech, founded 2008, Peter J. Hesketh, Faculty Advisor Auburn University Student Chapter, founded 2007, Jeffrey Fergus, Faculty Advisor

Indiana University Student Chapter, founded 2012, Lane Baker and Dennis Peters, Faculty Advisors Kerala, India Student Chapter at CUSAT, founded 2008, M. K. Jayaraj, Faculty Advisor

Boston Student Chapter (Harvard University, MIT, Northeastern University), founded 2009, Eugene Smotkin, Faculty Advisor

Lahore, Pakistan Student Chapter, founded 2008, Inam Ul Haque, Faculty Advisor

Technical University Brno Student Chapter, founded 2006, Jiri Vondrak, Faculty Advisor

University of Maryland Student Chapter, founded 2011, Eric Wachsman, Faculty Advisor

Calgary Student Chapter, founded 2011, Viola Birss, Faculty Advisor

Montréal Student Chapter, founded 2010, Steen B. Schougaard, Faculty Advisor

University of California - Berkeley Student Chapter, founded 2006, John Newman, Faculty Advisor

New York Capital Region Student Chapter, founded 2006, Dan Lewis, Faculty Advisor

The California State University Fullerton Division Student Chapter, founded 2012, John Haan, Faculty Advisor

The Ohio State University Student Chapter, founded 2006, Anne Co, Faculty Advisor

University of California - Riverside Student Chapter, founded 2011, Alexander Balandin, Faculty Advisor University of Central Florida Student Chapter, founded 2000, Kalpathy Sundaram, Faculty Advisor

Ohio University Student Chapter, founded 2011, Gerardine Botte, Faculty Advisor Research Triangle Student Chapter, founded 2009, Wesley Henderson, Faculty Advisor

Central Illinois Student Chapter, founded 2008, Andrzej Wieckowski, Faculty Advisor

South Brazilian Student Chapter (Univ. Fed. do Rio Grande do Sul), founded 2010, Luis Frederico P. Dick, Faculty Advisor

University of Cincinnati Student Chapter, founded 2007, Marc Cahay, Faculty Advisor

University of South Carolina Student Chapter, founded 2010, Xiao-Dong Zhou, Faculty Advisor

ECS Cleveland Section and Ernest B. Yeager Center for Electrochemical Sciences Joint Student Chapter, founded 2005, James D. Burgess, Faculty Advisor

Tel Aviv University Student Chapter, founded 2009, Eliezer Gileadi and Yosi ShachamDiamand, Faculty Advisors

Colorado School of Mines Student Chapter, founded 2012, Andrew Herring, Faculty Advisor

University of Texas at Austin Student Chapter, founded 2006, Ram Manthiram, Faculty Advisor

Drexel University Student Chapter, founded 2012, Yury Gogotsi, Faculty Advisor

University of Texas at Dallas Student Chapter, founded 2012, Moon Kim, Faculty Advisor

Florida International University Student Chapter, founded 2009, Chunlei Wang, Faculty Advisor

Tyndall National Institute Student Chapter, founded 2010, Alan O’Riordan, Faculty Advisor

University of Florida Student Chapter, founded 2005, Juan Nino, Faculty Advisor

Valley of the Sun – Central Arizona Student Chapter, founded 2013, Candace Chan, Faculty Advisor

Grand Valley State University Student Chapter, founded 2008, Cory M. DiCarlo, Faculty Advisor

University of Virginia Student Chapter, founded 2006, Rob Kelly, Faculty Advisor

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

2013-2014 ECS Committees Executive Committee of the Board of Directors

Technical Affairs Committee

Tetsuya Osaka, Chair.......................................................................................................................Spring 2014 Paul Kohl................................................................................................... Senior Vice-President, Spring 2014 Daniel Scherson........................................................................................Second Vice-President, Spring 2015 Krishnan Rajeshwar..................................................................................... Third Vice-President, Spring 2016 Hariklia Deligianni.........................................................................................................Secretary, Spring 2016 Christina Bock .............................................................................................................. Treasurer, Spring 2014

Paul Kohl, Chair..........................................................................................Senior Vice President, Spring 2014 Tetsuya Osaka................................................................................................................President, Spring 2014 Fernando Garzon...................................................................................Immediate Past President, Spring 2014 Esther Takeuchi............................................................................... 2nd Immediate Past President, Spring 2014 Krishnan Rajeshwar................................................................. Chair, Symposium Subcommittee, Spring 2014 Daniel Scherson...................................................................... Chair, Publications Subcommittee, Spring 2014 Eric Wachsman................................................................. Chair, New Technology Subcommittee, Spring 2016

Board of Directors, Presidential Appointment Stuart Swirson ...............................................................................................................................Spring 2014

Audit Committee Peter Fedkiw, Chair.........................................................................................................................Spring 2014 Petr Vanýsek ..................................................................................................................................Spring 2014 Paul Natishan .................................................................................................................................Spring 2015 William Eggers................................................................................................................................Spring 2016 Stuart Swirson...........................................................................Nonprofit Financial Professional, Spring 2014

Education Committee Mark Orazem, Chair........................................................................................................................Spring 2017 Vimal Chaitanya Desai....................................................................................................................Spring 2014 Jeff Long ........................................................................................................................................Spring 2014 Randy Leising ................................................................................................................................Spring 2015 Chris Apblett ..................................................................................................................................Spring 2015 Kalpathy Sundaram ........................................................................................................................Spring 2016 Jeffry Kelber ...................................................................................................................................Spring 2016 Douglas Hansen .............................................................................................................................Spring 2017 A. Robert Hillman ...........................................................................................................................Spring 2017 Krishnan Rajeshwar .................................................................................... Third Vice-President, Spring 2014 Kevin Rhodes .............................................................. Chair, Individual Membership Committee, Spring 2016

Ethical Standards Committee Fernando Garzon, Chair .......................................................................Immediate Past President, Spring 2014 Jan Talbot .......................................................................................................................................Spring 2014 Johna Leddy ..................................................................................................................................Spring 2015 William Brown ...............................................................................................................................Spring 2016 Hariklia Deligianni ........................................................................................................Secretary, Spring 2014

Finance Committee Christina Bock, Chair .................................................................................................... Treasurer, Spring 2014 Nancy Missert.................................................................................................................................Spring 2014 Elizabeth Opila ...............................................................................................................................Spring 2014 Pete Peterson .................................................................................................................................Spring 2015 Plamen Atanassov ..........................................................................................................................Spring 2015 Paul Kohl .................................................................................................. Senior Vice-President, Spring 2014 Hariklia Deligianni.........................................................................................................Secretary, Spring 2016

Honors and Awards Committee Peter Pintauro, Chair ......................................................................................................................Spring 2015 Ralph White ...................................................................................................................................Spring 2014 D. Noel Buckley .............................................................................................................................Spring 2014 Francis D’Souza .............................................................................................................................Spring 2014 Kalpathy Sundaram ........................................................................................................................Spring 2015 Paul Natishan .................................................................................................................................Spring 2015 Joseph Stetter ................................................................................................................................Spring 2015 Jean St. Pierre ................................................................................................................................Spring 2016 Durga Misra ...................................................................................................................................Spring 2016 Masayoshi Watanabe .....................................................................................................................Spring 2016 Enrico Traversa ...............................................................................................................................Spring 2017 David Lockwood.............................................................................................................................Spring 2017 Vijay Ramani ..................................................................................................................................Spring 2017 Tetsuya Osaka................................................................................................................President, Spring 2014

Individual Membership Committee Kevin Rhodes, Chair ......................................................................................................................Spring 2016 Sri Narayan ....................................................................................................................................Spring 2014 Robert Savinell ...............................................................................................................................Spring 2014 David (Picheng) Huang ..................................................................................................................Spring 2015 Parag Banerjee ...............................................................................................................................Spring 2015 Elizabeth Podlaha-Murphy .............................................................................................................Spring 2016 Wataru Sugimoto ...........................................................................................................................Spring 2016 Hariklia Deligianni ........................................................................................................Secretary, Spring 2016

Nominating Committee Fernando Garzon, Chair .......................................................................Immediate Past President, Spring 2014 D. Noel Buckley .............................................................................................................................Spring 2014 Subash Singhal ..............................................................................................................................Spring 2014 Dennis Hess ...................................................................................................................................Spring 2014 Krishnan Rajeshwar..................................................................................... Third Vice-President, Spring 2014

Tellers of Election Robert Comizzoli, Chair .................................................................................................................Spring 2014 Ronald Enstrom .............................................................................................................................Spring 2014 William Ayers .................................................................................................................................Spring 2014 Craig Arnold ..................................................................................................................Alternate, Spring 2014 James Amick ..................................................................................................................Alternate, Spring 2014 Norman Goldsmith .........................................................................................................Alternate, Spring 2014

Ways and Means Committee Hariklia Deligianni, Chair...............................................................................................Secretary, Spring 2016 Robert Glass ..................................................................................................................................Spring 2014 Petr Vanýsek ..................................................................................................................................Spring 2014 Peter Fedkiw ..................................................................................................................................Spring 2015 Adam Weber ...................................................................................................................................Spring 2015 Paul Kohl................................................................................................... Senior Vice-President, Spring 2014 Daniel Scherson........................................................................................Second Vice-President, Spring 2014

Development Subcommittee of the Sponsorship Committee William Brown, Chair .....................................................................................................................Spring 2014 Bruno Scrosati ...............................................................................................................................Spring 2014 E. Jennings Taylor ....................................................................... Chair, Sponsorship Committee, Spring 2014 Tetsuya Osaka................................................................................................................President, Spring 2014 Roque Calvo...................................................................................................... Executive Director, Term as ED Dan Fatton...............................................................................................Director of Development, Term as DD

New Technology Subcommittee of the Technical Affairs Committee Eric Wachsman, Chair......................................................... High Temperature Materials Division, Spring 2016 Hariklia Deligianni.............................................................................. Electrodeposition Division, Spring 2014 Uwe Happek ........................................................Luminescence and Display Materials Division, Spring 2014 Rick Wise ..............................................................................Electronics and Photonics Division, Spring 2014 Xiao-Dong Zhou ................................................................ High Temperature Materials Division, Spring 2014 Ana Londergan .........................................................Dielectric Science and Technology Division, Spring 2015 Trung-Van Nguyen.......... Industrial Electrochemistry and Electrochemical Engineering Division, Spring 2015 Michael Carter ....................................................................................................Sensor Division, Spring 2015 Shelley Minteer .............................................. Physical and Analytical Electrochemistry Division, Spring 2015 Arumugam Manthiram ........................................................................................Battery Division, Spring 2016 Patrik Schmuki ...............................................................................................Corrosion Division, Spring 2016 Isao Taniguchi .................................................Organic and Biological Electrochemistry Division, Spring 2016 Phaedon Avouris ................................Fullerenes, Nanotubes, and Carbon Nanostructures Division, Spring 2016

Publications Subcommittee Daniel Scherson, Chair.............................................................................Second Vice-President, Spring 2014 Mary E. Yess..................................................................................................................Publisher, Term as Pub Robert Savinell.......................................................................................................EST Board Chair, 5/17/2017 Dennis W. Hess................................................................................................. SSST Board Chair, 12/31/2016 Krishnan Rajeshwar............................................................................................... Interface Editor, 12/31/2013 Jeffrey Fergus..........................................................................................ECS Transactions Editor, 12/31/2014 Subhash Singhal.............................................................................................................................Spring 2014 Johna Leddy...................................................................................................................................Spring 2014 Hubert Gasteiger.............................................................................................................................Spring 2015 James Fenton..................................................................................................................................Spring 2015 Hariklia Deligianni.........................................................................................................Secretary, Spring 2016

Symposium Subcommittee Krishnan Rajeshwar, Chair........................................................................... Third Vice-President, Spring 2014 Bor Yann Liaw ............................................................................................... Chair, Battery Division, Fall 2014 Shinji Fujimoto ........................................................................................ Chair, Corrosion Division, Fall 2014 Oana Leonte ...................................................Chair, Dielectric Science and Technology Division, Spring 2014 Giovanni Zangari ...........................................................................Chair, Electrodeposition Division, Fall 2013 Andrew Hoff ................................................................Chair, Electronics and Photonics Division, Spring 2015 Adam Weber............................................................................Chair, Energy Technology Division, Spring 2015 Bruce Weisman ................... Chair, Fullerenes, Nanotubes, and Carbon Nanostructures Division, Spring 2014 Jeffrey Fergus ...............................................................Chair, High Temperature Materials Division, Fall 2013 Gerardine Botte ..... Chair, Industrial Electrochemistry and Electrochemical Engineering Division, Spring 2014 John Collins ...................................................Chair, Luminescence and Display Materials Division, Fall 2013 James Burgess ..................................... Chair, Organic and Biological Electrochemistry Division, Spring 2015 Rob Mantz ............................................Chair, Physical and Analytical Electrochemistry Division, Spring 2015 Michael Carter .............................................................................................. Chair, Sensor Division, Fall 2014 Eric Wachsman................................................................. Chair, New Technology Subcommittee, Spring 2016

Society Historian

Sponsorship Committee

Zoltan Nagy ....................................................................................................................................Spring 2016

E. Jennings Taylor, Chair.................................................................................................................Spring 2016 Rob Sides ......................................................................................................................................Spring 2014 Michael Kubicsko ..........................................................................................................................Spring 2014 Ana Londergan ...............................................................................................................................Spring 2014 William Eggers ...............................................................................................................................Spring 2015 William Brown ...............................................................................................................................Spring 2015 Paul Trulove ...................................................................................................................................Spring 2015 Bruno Scrosati ...............................................................................................................................Spring 2016 Yukinari Kotani ...............................................................................................................................Spring 2016 Soo-Gil Park ..................................................................................................................................Spring 2016 Tetsuya Osaka ...............................................................................................................President, Spring 2014 Christina Bock............................................................................................................... Treasurer, Spring 2014 Roque J. Calvo........................................................................ ex officio-nonvoting, Term as Executive Director

Representatives to Other Societies

American Association for the Advancement of Science Roque J. Calvo.................................................................................................. Term as Executive Director Chemical Heritage Foundation Kathryn R. Bullock...................................................................................... Heritage Councilor, Spring 2014 Federation of Materials Societies Petr Vanýsek................................................................................................................. Trustee, Spring 2014 Roque J. Calvo............................................................................Advisory Board, Term as Executive Director

National Inventors Hall of Fame Peter Pintauro.......................................................................Chair, Honors & Awards Committee, Spring 2015

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Short Courses

ix Short Courses will be offered on Sunday, October 27, 2013, from 0900h to 1630h. The registration fee for the Short Courses is $425 for ECS Members and $520 for Nonmembers. Students may register for a Short Course at a 50% discount—ECS Student Members: $212.50, and Nonmember Students: $260. The Short Course registration fee includes participation in the course, text materials, continental breakfast, luncheon, and refreshment breaks; the Short Course Registration fee does not include or apply to the general Meeting Registration, and it is not applicable to any other activities of the meeting. Pre-registration for Short Courses is required—the deadline is September 27, 2013 Please visit the San Francisco meeting page of the ECS website for full course descriptions and instructor biographies: www.electrochem.org.

Short Course #1

Short Course #4

Advanced Impedance Spectroscopy Mark E. Orazem, Instructor

Operation and Exploitation of Electrochemical Capacitor Technology John R. Miller, Instructor

This course is intended for chemists, physicists, materials scientists, and engineers with an interest in applying electrochemical impedance techniques to study a broad variety of electrochemical processes. The course is best suited for an attendee who has some experience with making impedance measurements and wants to develop a deeper understanding of the technique. The attendee will develop a basic understanding of the technique, the sources of errors in impedance measurements, the manner in which experiments can be optimized to reduce these errors, and the use of regression to interpret measurements in terms of meaningful physical properties.

Short Course #2 Fundamentals of Electrochemistry: Basic Theory and Kinetic Methods Jamie Noël, Instructor This course, fully revised to include more practical examples and a more manageable volume of material, covers the basic theory and application of electrochemical science. It is targeted toward people with a physical sciences or engineering background who have not been trained as electrochemists, but who want to add electrochemical methods to their repertoire of research approaches. There are many fields in which researchers originally approach their work from another discipline but then discover that it would be advantageous to understand and use some electrochemical methods to complement the work that they are doing.

Short Course #3 Polymer Electrolyte Fuel Cells Hubert Gasteiger and Thomas Schmidt, Instructors This course develops the fundamental thermodynamics and electrocatalytic processes critical to polymer electrolyte fuel cells (PEFCs, including direct methanol and alkaline membrane FCs). In the first part, the instructors will discuss the relevant half-cell reactions, their thermodynamic driving forces, and their mathematical foundations in electrocatalysis theory (e.g., Butler-Volmer equations). In the second part of the course, the instructors will illuminate the different functional requirements of actual PEFC (incl. DMFC and AMFC) components and present basic in situ diagnostics (Pt surface area, shorting, H2 crossover, electronic resistance, etc.). This will be used to develop an in-depth understanding of the various voltage loss terms that constitute a polarization curve. Finally, the instructors will apply this learning to describe the principles of fuel cell catalyst activity measurements, the impact of uncontrolled-operation events (e.g., cell reversal), and the various effects of long-term materials degradation. To benefit most effectively from this course, registrants should have completed at least their first two years of a bachelor’s program in physics, chemistry, or engineering; or have several years of experience with PEFCs.

Electrochemical capacitors (ECs), often referred to by the product names supercapacitors or ultracapacitors, are receiving increased attention for use in power sources of many applications because they offer extraordinarily high reversibility, provide unexcelled power density, and have exceptional cycle-life. This tutorial is targeted at technologists interested in understanding and exploiting electrochemical capacitor technology. Basics are first covered that describe the nature and significance of electric double layer charge storage, the general design of such products, and the similarities and differences between these devices and traditional capacitors and batteries. The goal is to provide basic understanding, necessary tools, and sufficient operating information to allow direct and successful advancement and/or exploitation of electrochemical capacitor technology.

Short Course #5 Introduction to Solid Oxide Fuel Cell Science and Technology Stuart B. Adler and Nguyen Minh, Instructors The objective of the course is to provide an introduction to Solid Oxide Fuel Cell (SOFC) science & technology, with emphasis in the following areas: • Process/System Design and Integration • Stack Design • Cell Materials and Fabrication • Performance and Other Operating Characteristics • Cell Modeling and Diagnostics To benefit most effectively from the course attendees should have completed the first two years of a Bachelor’s program in physics, chemistry, engineering, or equivalent, and possess basic computer skills (spreadsheet calculations). Various course materials will be provided however, attendees should bring a laptop computer, hand calculator, writing implement, and note paper.

Short Course #6 Micro/Nanofabrication of Chemical and Biosensors Peter J. Hesketh, Gary W. Hunter, and Zoraida P. Aguilar, Instructors This course will cover micro/nanofabrication techniques for chemical and biosensors. Fabrication processes include physical vapor deposition, oxidation and diffusion in silicon, chemical vapor deposition, atomic layer deposition, plasma etching, in addition to photo and electron beam lithography. As nanotechnology is rapidly growing the methods for nanoscale fabrication of structures, including ion beam, electron beam, vapor-liquid-solid growth, and electroplating will be addressed.

Short Course Refund Policy: Written requests for Short Course refunds will be honored only if received at ECS headquarters by October 21, 2013. All refunds are subject to a 10% processing fee and requests for refunds must be made in writing and e-mailed to customer.service@electrochem.org. Refunds will not be processed until AFTER the meeting. All courses are subject to cancellation pending an appropriate number of advance registrants. Before making any flight or hotel reservations, please check to make sure the Short Course that you have selected is being offered.

For more information on future short courses, please visit

www.electrochem.org/short_courses Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Professional Development Series and Career Opportunities John R. Susko, Instructor Several key professional development workshops will be presented October 27-30, 2013. These important workshops will provide attendees with up-to-date information on enhancing career opportunities. The professional development workshops are open to all registered attendees at no additional cost, and will be held in Franciscan B, Tower 1, Ballroom Level and the Green Room, Tower 2, Grand Ballroom Level. We also invite you to visit the Redcat booth in the Exhibit Hall or redcatresearch.org to discover the latest career opportunities in electrochemistry and solid state science and technology. Professional Development Series: Essential Elements for Employment Success—Landing your next job requires selective and effective networking, developing and submitting specifically targeted resumes and cover letters, locating relevant job opportunities and preparing for and participating in the job interview. This workshop will provide up-to-date information and tips for employment success. Sunday, October 27................................1400-1600h Monday, October28................................0800-1000h

Professional Development Series: Résumé Review—At a loss for words? Bring your résumé for a one-on-one session with an industry leader and expert on résumé development. You will walk away with a résumé that is sure to land you your next interview. Monday, October 28...............................1200-1600h Tuesday, October 29..............................0800-1200h Wednesday, October 30..........................0800-1200h

Information for Oral and Poster Presenters Oral Presentations and Audio-Visual

Oral presentations must be in English. Laptop computers and LCD projectors will be available in each symposium room for oral presentations. Authors are required to bring their presentation on a USB flash drive only. Speakers requiring special equipment must make written request to ECS headquarters (meetings@electrochem. org) no later than September 27, 2013, and appropriate arrangements will be made at the expense of the author.

Poster Presentations and Sessions

Poster presentations must be in English, on a board approximately 3 feet 10 inches high by 3 feet 10 inches wide (1.17 meters high by 1.17 meters wide), and correspond to the abstract number and day of presentation as detailed in the final program. Plan your display to fit on one upright panel as per the above dimensions. Present displayed information from left to right, starting at the top left of the panel. The paper title, number, names, and affiliations of all authors MUST be at the top of the display. The recommended print size for the title is approximately 1” to 2” (2.5 cm to 5 cm) high. Authors should minimize written text but use it when necessary to emphasize essential data and/or to stimulate discussion. All illustrations, drawings, charts, pictures, graphs, figures, and written text should be large enough to allow easy reading from a distance of 5′ (1.5 m). Matted and finished photographs are recommended to enhance visibility. Commercial advertisements or publicity will NOT be permitted in poster presentations. Authors violating this regulation will be asked to remove their presentations immediately. Please arrive approximately two to four hours before the start of your session to begin setting up your poster displays. Please do not begin setting up your poster until all the poster boards have been numbered. Pushpins and/or thumbtacks will be supplied. Authors are responsible for setting up their displays, for being present during the entire scheduled poster session, and for removing their displays at the conclusion of the poster session. No posters will be displayed without author participation. NO EXCEPTIONS WILL BE GRANTED. Authors are responsible for the security of their displays and all items of value. ECS will not assume any responsibility

for lost, stolen, or broken articles. Additional information or special requirements should be addressed to the individual symposium organizers prior to the meeting.

Student Poster Session

The Student Poster Session will be held as part of the Tuesday General Poster Session and Technical Exhibit. All meeting registrants are invited to attend. Formal presentations will begin at 1800h. Students may start setting up their presentations at 1300h in the Exhibit Hall (Grand Ballroom, Tower 2, Grand Ballroom Level); judging of the posters will begin at 1500h. Winners will be announced and given an award plaque on Wednesday at 1800h in the Exhibit Hall.

Tech Table

A Tech Table staffed by audio-visual technicians will be available Sunday through Friday, for any audio-visual assistance needed for oral presentations.

No Photography or Recording Allowed By attending the ECS meeting, you agree that you will not record any meeting-related activity, without the express, written consent from ECS. Recording means any audiovisual or photographic methods. Meeting-related activity means any presentation (oral or poster) or social event directly related to the meeting. You may photograph your own personal, non-meeting related activity, but you must obtain permission from all involved parties before photographs can be taken of other people or displays at the meeting or exhibit. Press representatives must receive media credentials and recording permission from the ECS Headquarters Office. If you violate this policy, you will be removed from the meeting. Your registration will be revoked and you will lose all access to the meeting. In this case, you will not receive a refund of the registration fees. ECS also reserves the right to deny your attendance at future ECS or ECS sponsored meetings.

Technical Session Co-Chair Information

Please check the ECS website or mobile app to find the most recent list of cancelled papers. ECS headquarters is located in the California Room, Tower 3, Ballroom Level, if you have any questions.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

e Electrochemical Society Series

Symposium Topics and Organizers A — General Topics A0 — Special Lectures (M) A1 — General Student Poster Session (T) – V. Subramanian, V. Chaitanya, M. P. Foley, and K. B. Sundaram All Divisions A2 — Nanotechnology General Session (Tu-W) – O. Leonte, Z. Aguilar, F. Chen, J. Li, and W. Mustain All Divisions / New Technology Subcommittee A3 — The Energy-Water Nexus (M-Th) – E. Wachsman, J. Burgess, M. Carter, C. Hensman, B. Y. Liaw, S. Minteer, W. Mustain, P. Natishan, and B. Stoner All Divisions / New Technology Subcommittee B — Batteries, Fuel Cells, and Energy Conversion B1 — Energy Technology/Battery Joint General Session (M-Th) – A. Manivannan, G. Amatucci, G. Jain, B. Y. Liaw, and S. R. Narayanan Battery Division / Energy Technology Division B2 — Battery Chemistries Beyond Lithium Ion (M-F) – C. Johnson, M. Doeff, A. Manthiram, S. Mukerjee, J. Muldoon, and K. Zaghib Battery Division / Energy Technology Division B3 — Battery Safety (W) – D. H. Doughty, G. Botte, and C. J. Orendorff Battery Division / Industrial Electrochemistry and Electrochemical Engineering Division B4 — Computational Science of Battery Materials (Tu-W) – S. Meng, D. Bedrov, L. Chen, K. Persson, M. S. Islam, and V. Subramanian Battery Division / Industrial Electrochemistry and Electrochemical Engineering Division / Physical and Analytical Electrochemistry Division

D3 — Degradation of Carbon Structural Materials (Tu) – D. Hansen and L. Hihara Corrosion Division / New Technology Subcommittee D4 — Mass Transport Phenomena in Localized Corrosion (M) – S. Lillard and R. Kelly Corrosion Division D5 — Oxide Films: A Symposium in Honor of Dr. Clive Clayton on his 65th birthday (M-W) – S. Fujimoto, D. Baer, D. Chidambaram, G. P. Halada, M. Jaime-Vasquez, and D. F. Roeper Corrosion Division D6 — Biodegradable and Bioabsorbable Metals and Materials (Tu) – R. Bucheit, M. Bayachou, and B. A. Shaw Corrosion Division E — Dielectric and Semiconductor Materials, Devices, and Processing E1 — Solid State Topics General Session (W) – K. Sundaram, X. Wang, O. Leonte, H. Iwai, R. Todi, and K. Shimamura Dielectric Science and Technology Division / Electronics and Photonics Division / Energy Technology Division E2 — Atomic Layer Deposition Applications 9 (W-F) – F. Roozeboom, S. D. Gendt, A. Delabie, J. W. Elam, A. Londergan, and O. Van Der Straten Dielectric Science and Technology Division / Electronics and Photonics Division E3 — GaN and SiC Power Technologies 3 (M-Th) – K. Shenai, M. Bakowski, M. Dudley, and N. Ohtani Electronics and Photonics Division / Dielectric Science and Technology Division

B5 — Electrochemical Capacitors: Fundamentals to Applications (M-Th) – T. Brousse, D. Bélanger, P. Kumta, J. Long, P. Simon, and W. Sugimoto Battery Division / Energy Technology Division

E4 — Low-Dimensional Nanoscale Electronics and Photonic Devices 6 (M-W) – M. Suzuki, S. Albin, M. Carter, L. J. Chou, Y. L. Chueh, S. Jin, M. H. Jo, and R. J. Martín-Palma Electronics and Photonics Division / Dielectric Science and Technology Division / Sensor Division

B6 — Electrochemical Synthesis of Fuels 2 (M-Th) – X. D. Zhou, G. Brisard, M. Mogensen, W. Mustain, J. Staser, and M. C. Williams High Temperature Materials Division / Energy Technology Division / Industrial Electrochemistry and Electrochemical Engineering Division / Physical and Analytical Electrochemistry Division

E5 — Nonvolatile Memories (M-W) – S. Shingubara, H. Akinaga, Z. Karim, Y. B. Kim, K. Kobayashi, K. J. Lee, B. Magyari-Kope, T. Ohyanagi, A. Sebastian, Y. Suzuki, and N. Takaura Dielectric Science and Technology Division / Electronics and Photonics Division

B7 — High Temperature Experimental Techniques and Measurements (Tu-W) – G. Jackson, A. Manivanan, T. Markus, E. Opila, P. Trulove, and R. Walker High Temperature Materials Division / Energy Technology Division / Physical and Analytical Electrochemistry Division

E6 — Photovoltaics for the 21st Century 9 (Tu) – M. Tao, C. Claeys, H. (Lili) Deligianni, J. M. Fenton, M. E. Overberg, J.G. Park, K. Rajeshwar, and M. Sunkara Dielectric Science and Technology Division / Electrodeposition Division / Electronics and Photonics Division / Energy Technology Division / Industrial SC Electrochemistry and Electrochemical Engineering Division

B8 — Intercalation Compounds for Rechargeable Batteries (Tu-F) – M. M. Doeff, S. Meng, C. Masquelier, A. Yamada, K. Zaghib, and G. G. Botte Battery Division / Industrial Electrochemistry and Electrochemical Engineering Division B9 — Interfacial Phenomena in Battery Systems (Tu-W) – R. Kostecki, Y. Xing, and N. Balke Battery Division / Physical and Analytical Electrochemistry Division B10— Lithium-ion Batteries (M-F) – R. V. Bugga, M. Smart, and A. Manthiram Battery Division B11— Polymer Electrolyte Fuel Cells 13 (Su-F) – H. Gasteiger, F. N. Büchi, C. Coutanceau, M. Edmundson, J. Fenton, T. Fuller, D. Hansen, D. Jones, R. Mantz, S. Mitsushima, S. R. Narayanan, K. A. Perry, V. Ramani, T. J. Schmidt, K. Shinohara, P. Strasser, K. Swider-Lyons, H. Uchida, and A. Weber Industrial Electrochemistry and Electrochemical Engineering Division / Battery Division / Corrosion Division / Energy Technology Division / Physical and Analytical Electrochemistry Division B12— Stationary and Large Scale Electrical Energy Storage Systems 3 (Tu-W) – T. V. Nguyen, S. Mukerjee, V. D. Noto, and B. Y. Liaw Battery Division / Energy Technology Division / Industrial Electrochemistry and Electrochemical Engineering Division D — Corrosion, Passivation, and Anodic Films D1 — Corrosion General Poster Session (Th) – R. Buchheit Corrosion Division D2 — Atmospheric Corrosion (W-Th) – D. Hansen, R. Calhoun, R. Kelly, C. Leygraf, and A. Nishikata Corrosion Division / Physical and Analytical Electrochemistry Division 34

E7 — Processing, Materials, and Integration of Damascene and 3D Interconnects 5 (M-W) – K. Kondo, R. Akolkar, D. P. Barkey, W. P. Dow, M. Hayase, M. Koyanagi, G. S. Mathad, P. Ramm, F. Roozeboom, and S. Shingubara Dielectric Science and Technology Division / Electrodeposition Division / Electronics and Photonics Division / High Temperature Materials Division E8 — Semiconductor Cleaning Science and Technology 13 (SCST 13) (M-W) – J. Ruzyllo, T. Hattori, P. Mertens, and R. E. Novak Electronics and Photonics Division E10— Semiconductors, Dielectrics, and Metals for Nanoelectronics - 11 (M-W) – S. Kar, M. Houssa, H. Jagannathan, K. Kita, D. Landheer, D. Misra, and S. V. Elshocht Dielectric Science and Technology Division / Electronics and Photonics Division E11 — State-of-the-Art Program on Compound Semiconductors (SOTAPOCS) 55 (M-Tu) – C. O’Dwyer, E. Douglas, J. H. He, and S. Jang Electronics and Photonics Division E12— ULSI Process Integration 8 (M-W) – C. Claeys, S. Deleonibus, H. Iwai, J. Murota, and M. Tao Electronics and Photonics Division F — Electrochemical / Chemical Deposition and Etching F1 — Current Trends in Electrodeposition - An Invited Symposium (W) – C. Bonhote Electrodeposition Division

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Symposium Topics and Organizers (continued) F2 — Emerging Materials and Processes for Energy Conversion and Storage (WTh) – Y. Fukunaka, H. (Lili) Deligianni, C. Johnson, T. V. Nguyen, and P. Vereecken Electrodeposition Division / Battery Division F3 — Fundamentals and Applications of Electrophoretic Deposition (M) – J. Talbot, J. Dickerson, and J. Fransaer Electrodeposition Division F4 — Fundamentals of Electrochemical Growth: From UPD to Microstructures 3 (Tu-Th) – S. Brankovic, Y. Fukunaka, T. Homma, M. Innocenti, and N. Vasiljevic Electrodeposition Division F5 — Emerging Opportunities in Electrochemical Deposition for Nanofabrication (M-W) – R. Akolkar, M. Anderson, M. Buck, and T. Moffat Electrodeposition Division / Physical and Analytical Electrochemistry Division G — Electrochemical Synthesis and Engineering G1 — Alkaline Electrolyzers (W) – G. Botte, K. Ayers, B. Y. Liaw, S. Mukerjee, and V. Ramani Industrial Electrochemistry and Electrochemical Engineering Division / Battery Division / Energy Technology Division / Physical and Analytical Electrochemistry Division G2 — Synthesis and Electrochemical Engineering General Session (W) – G. Botte and J. Staser Industrial Electrochemistry and Electrochemical Engineering Division H — Fullerenes, Nanotubes, and Carbon Nanostructures H1 — Carbon Nanostructures 4 - Fullerenes to Graphene (M-Tu) – D. Guldi, P. Atanassov, M. Carter, H. Martin, and K. Zaghib Fullerenes, Nanotubes, and Carbon Nanostructures Division / Dielectric Science and Technology Division / Energy Technology Division / Physical and Analytical Electrochemistry Division / Sensor Division I — Physical and Analytical Electrochemistry I1 — Physical and Analytical Electrochemistry Division General Session (M-Tu) – P. Kulesza Physical and Analytical Electrochemistry Division

I2 — Invitational Symposium in Honor of Adam Heller on his 80th Birthday (M-W) – S. C. Barton, P. Atanassov, E. J. Cairns, and S. Minteer Physical and Analytical Electrochemistry Division / Battery Division / Energy Technology Division / Organic and Biological Electrochemistry Division Photoelectrochemistry and Photoassisted Electrocatalysis (M-W) – I3 — T. Zawodzinski, E. McFarland, R. Subramanian, J. Turner, and H. Wang Physical and Analytical Electrochemistry Division I4 — Physical and Analytical Electrochemistry in Ionic Liquids 3 (M) – H. Delong, M. Carter, J. Fransaer, R. Mantz, and P. Trulove Physical and Analytical Electrochemistry Division / Battery Division / Electrodeposition Division / Sensor Division I5 — Processes 8 (Tu) – A. Hillier and J. Prakash Physical and Analytical Electrochemistry Division / Energy Technology Division J — Sensors and Displays: Principles, Materials, and Processing J1 — Sensors, Actuators, and Microsystems General Session (M-Tu) – M. Carter, Z. Aguilar, B. Chin, G. Hunter, and P. Sekhar Sensor Division J2 — Impedance Techniques, Diagnostics, and Sensing Applications (Tu) – V. Lvovich, D. Hansen, A. Khosla, M. E. Orazem, M. Smiechowski, and P. Vanýsek Sensor Division / Corrosion Division / Industrial Electrochemistry and Electrochemical Engineering Division / Physical and Analytical Electrochemistry Division J3 — Luminescence and Display Materials: Fundamentals and Applications (M-W) – J. Collins, U. Happek, C. Hunt, K. Mishra, and A. Setlur Luminescence and Display Materials Division J4 — Microfluidic MEMS/NEMS, Sensors and Devices (M-W) – P. Vanýsek, D. Cliffel, P. Hesketh, and A. Khosla Sensor Division / Physical and Analytical Electrochemistry Division / New Technology Subcommittee J6 — Sensors for Agriculture (Tu) – B. Chin, P. Hesketh, S. Minteer, and A. Simonian Sensor Division / Physical and Analytical Electrochemistry Division

SPECIAL OFFER! Purchase a hardcover copy of ECS Transactions Volume 58, Issues 1, 2, 3, 4, 5, 6, 7, 8, 9, or 10 with your San Francisco meeting registration and receive 10% off that issue’s list price! For ECS Members, the 10% discount will be on top of your regular Member discount for these issues. Any discounted books purchased must be picked up at the San Francisco meeting. The discount does not apply to electronic editions of these issues. This discount is not valid on any other issues of ECST, Monographs, or Proceedings Volumes purchased at the meeting.

ECS Transactions – Forthcoming Issues In addition to those symposia that have committed to publishing an issue of ECS Transactions (ECST), all other symposia potentially will be publishing an issue of ECST approximately 16 weeks after the San Francisco meeting. If you would like to receive information on any of these issues when they become available, please e-mail. Please include your name, e-mail address, and all issues in which you are interested.

ECS Transactions (ECST) – Symposia with issues available “at” the meeting are labeled with the following icons. Hard-cover (HC) editions will be available for purchase and pick-up at the meeting; or you may pre-order on the meeting registration form or when registering online. CD Compact Disc (CD) editions will be available for purchase

and pick-up at the meeting; or you may pre-order your CD ECST issue on the meeting registration form or when registering online. The CD edition of B11 (PEFC 13) will also include a 1 gigabyte USB drive containing the complete issue.

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

SC Softcover (SC) editions will be available for purchase at the

meeting but will be shipped to you after the meeting ends. Please visit Meeting Registration or the ECS exhibit booth to order.

Electronic (PDF) editions will be available ONLY via the ECS Digital Library (www.ecsdl.org). Electronic editions of the San Francisco “at” meeting issues will be available for purchase beginning October 18, 2013. Please visit the ECS website for all issue pricing and ordering information for the electronic editions. 35

224th ECS Meeting Sunday, October 27 Code A0

Technical Symposia

Monday, October 28 AM

Special Lectures All Divisions

Tuesday, AM

1400 Olin Palladium Award Address 1450 Carl Wagner Memorial Award Lecture 1700 ECS Lecture Grand Ballroom A, Tower 2, Grand Ballroom Level

General Student Poster Session V. Subramanian, V. Chaitanya, M. Foley, K. Sundaram All Divisions

Nanotechnology General Session O. M. Leonte, Z. Aguilar, F. Chen, J. Li, W. Mustain All Divisions, New Technology Subcommittee

The Energy–Water Nexus E. Wachsman, J. Burgess, M. Carter, C. Hensman, B. Y. Liaw, S. Minteer, P. Natishan, B. Stoner All Divisions, New Technology Subcommittee

Abst 212-216 Franciscan D, Tower 1, Ballroom Level

Abst 217-220 Franciscan D, Tower 1, Ballroom Level

Abst 221-227 Franciscan D, Tower 1, Ballroom Level

Energy Technology/Battery - Joint General Session A. Manivannan, G. Amatucci, G. Jain, B. Y. Liaw, S. Narayanan Battery, Energy Technology

Abst 251-261 Continental 4, Tower 3, Ballroom Level

Abst 262-270 Continental 4, Tower 3, Ballroom Level

Abst 271-282 Continental 4, Tower 3, Ballroom Level

Abst 149-160 Franciscan C, Tower 1, Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

San Francisco, CA l Oct. 27– Nov.1, 2013 October 29 PM

Wednesday, October 30

Thursday, October 31

Friday, November 1

Abst 161-170 Franciscan C, Tower 1, Ballroom Level

Abst 171-182 Franciscan C, Tower 1, Ballroom Level

Abst 183-194 Franciscan C, Tower 1, Ballroom Level Post 195-211 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 228-230; Abst 231-233 Franciscan D, Tower 1, Ballroom Level

Abst 234-241 Franciscan D, Tower 1, Ballroom Level

Abst 242-246 Franciscan D, Tower 1, Ballroom Level

Abst 247-250 Franciscan D, Tower 1, Ballroom Level

Abst 283-292 Continental 4, Tower 3, Ballroom Level

Abst 293-301 Continental 4, Tower 3, Ballroom Level

Abst 302-309 Continental 4, Tower 3, Ballroom Level Post 310-341 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 342-352 Continental 4, Tower 3, Ballroom Level

Post 3-148 Grand Ballroom, Tower 2, Grand Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

224th ECS Meeting Sunday, October 27 Code

Technical Symposia

Battery Chemistries Beyond Lithium Ion C. Johnson, M. Doeff, A. Manthiram, S. Mukerjee, J. Muldoon, K. Zaghib Battery, Energy Technology

Battery Safety D. H. Doughty, G. Botte, C. Orendorff Battery, Industrial Electrochemistry and Electrochemical Engineering

Computational Science of Battery Materials S. Meng, D. O. Bedrov, L. Chen, K. Persson, M. Islam, V. Subramanian Battery, Industrial Electrochemistry and Electrochemical Engineering, Physical and Analytical Electrochemistry

Monday, October 28 AM

Abst 353-362 Abst 372-380 Yosemite A, Yosemite Tower 2, A, Tower 2, Ballroom Level Ballroom Level Abst 363-371 Yosemite B, Tower 2, Ballroom Level

Tuesday, AM Abst 381-388 Yosemite B, Tower 2, Ballroom Level Abst 389-396 Yosemite A, Tower 2, Ballroom Level

Abst 555-563 Sutter Room, Tower 3, 6th Floor

Meeting Program l October 27â&#x20AC;&#x201C;November 1, 2013 l San Francisco, CA

San Francisco, CA l Oct. 27– Nov.1, 2013 October 29

Wednesday, October 30

Thursday, October 31

Friday, November 1

Abst 397-406 Yosemite B, Tower 2, Ballroom Level Abst 407-414 Yosemite A, Tower 2, Ballroom Level

Abst 415-419 Yosemite B, Tower 2, Ballroom Level Abst 420-423 Franciscan B, Tower 1, Ballroom Level Abst 424-430 Yosemite A, Tower 2, Ballroom Level Abst 431-436 Yosemite C, Tower 2, Ballroom Level Abst 437-441 Franciscan A, Tower 1, Ballroom Level Abst 442-447 Yosemite B, Tower 2, Ballroom Level

Abst 448-456 Yosemite A, Tower 2, Ballroom Level Abst 457-460 Franciscan A, Tower 1, Ballroom Level Abst 461-464 Yosemite C, Tower 2, Ballroom Level Post 465-510 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 511-521 Yosemite A, Tower 2, Ballroom Level Abst 522-526 Yosemite B, Tower 2, Ballroom Level

Abst 527-532 Yosemite B, Tower 2, Ballroom Level

Abst 533-535 Yosemite A, Tower 2, Ballroom Level

Abst 536-544 Union Square 13, Tower 3, 4th Floor

Abst 545-551 Union Square 13, Tower 3, 4th Floor Post 552-554 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 575-583 Sutter Room, Tower 3, 6th Floor

Abst 584-594 Sutter Room, Tower 3, 6th Floor Post 595-598 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 564-574 Sutter Room, Tower 3, 6th Floor

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

224th ECS Meeting Sunday, October 27 Code

Technical Symposia

Monday, October 28

Tuesday,

Abst 599-600; Abst 601-606 Union Square 19/20, Tower 3, 4th Floor

Abst 607-610; Abst 611-612 Union Square 19/20, Tower 3, 4th Floor

Abst 613-616; Abst 617-622 Union Square 19/20, Tower 3, 4th Floor

Abst 689-694 Union Square 1/2, Tower 3, 4th Floor

Abst 695-703 Union Square 1/2, Tower 3, 4th Floor

Electrochemical Capacitors: Fundamentals to Applications T. Brousse, D. BĂŠlanger, P. Kumta, J. Long, P. Simon, W. Sugimoto Battery, Energy Technology

Electrochemical Synthesis of Fuels 2 X.-D. Zhou, G. Brisard, M. Mogensen, W. Mustain, J. Staser, M. Williams High Temperature Materials, Energy Technology, Industrial Electrochemistry and Electrochemical Engineering, Physical and Analytical Electrochemistry

High Temperature Experimental Techniques and Measurements G. Jackson, A. Manivannan, T. Markus, E. Opila, P. Trulove, R. Walker High Temperature Materials, Energy Technology, Physical and Analytical Electrochemistry

Abst 767-771 Union Square 17/18, Tower 3, 4th Floor

Intercalation Compounds for Rechargeable Batteries M. Doeff, S. Meng, C. Masquelier, A. Yamada, K. Zaghib, G. Botte Battery, Industrial Electrochemistry and Electrochemical Engineering

Abst 803-812 Imperial A, Tower 2, Ballroom Level

Interfacial Phenomena in Battery Systems R. Kostecki, Y. Xing, N. Balke Battery, Physical and Analytical Electrochemistry

Abst 901-909 Golden Gate 6, Tower 3, Lobby Level

Meeting Program l October 27â&#x20AC;&#x201C;November 1, 2013 l San Francisco, CA

San Francisco, CA l Oct. 27– Nov.1, 2013 October 29

Wednesday, October 30

Thursday, October 31

Friday, November 1 AM

Abst 623-627; Abst 628-630 Union Square 19/20, Tower 3, 4th Floor

Abst 631-634; Abst 635-640 Union Square 19/20, Tower 3, 4th Floor

Abst 641-644; Abst 645-650 Union Square 19/20, Tower 3, 4th Floor Post 651-672 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 673-676; Abst 677-682 Union Square 19/20, Tower 3, 4th Floor

Abst 683-688 Union Square 19/20, Tower 3, 4th Floor

Abst 704-714 Union Square 1/2, Tower 3, 4th Floor

Abst 715-723 Union Square 1/2, Tower 3, 4th Floor

Abst 724-730 Union Square 1/2, Tower 3, 4th Floor Post 731-750 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 751-760 Union Square 1/2, Tower 3, 4th Floor

Abst 761-766 Union Square 1/2, Tower 3, 4th Floor

Abst 772-780 Union Square 17/18, Tower 3, 4th Floor

Abst 781-786 Union Square 17/18, Tower 3, 4th Floor

Abst 787-796 Union Square 17/18, Tower 3, 4th Floor Post 797-802 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 813-823 Imperial A, Tower 2, Ballroom Level

Abst 824, 826834 Imperial A, Tower 2, Ballroom Level

Abst 835-844 Imperial A, Tower 2, Ballroom Level Post 845-869 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 870-878 Imperial A, Tower 2, Ballroom Level

Abst 879-890 Imperial A, Tower 2, Ballroom Level

Abst 910-919 Golden Gate 6, Tower 3, Lobby Level

Abst 920-928 Golden Gate 6, Tower 3, Lobby Level

Abst 929-937 Golden Gate 6, Tower 3, Lobby Level Post 938-951 Grand Ballroom, Tower 2, Grand Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Abst 891-900 Imperial A, Tower 2, Ballroom Level

224th ECS Meeting Sunday, October 27 Code

Technical Symposia

B10

Lithium-Ion Batteries R. Bugga, M. Smart, A. Manthiram Battery

B11

Polymer Electrolyte Fuel Cells 13 H. Gasteiger, F. BĂźchi, C. Coutanceau, M. Edmundson, J. Fenton, T. Fuller, D. Hansen, D. Jones, R. Mantz, S. Mitsushima, K. Perry, S. Narayanan, V. Ramani, T. Schmidt, K. Shinohara, P. Strasser, K. Swider-Lyons, H. Uchida, A. Weber Industrial Electrochemistry and Electrochemical Engineering, Battery, Corrosion, Energy Technology, Physical and Analytical Electrochemistry

B12

Stationary and Large-scale Electrical Energy Storage Systems 3 T. Nguyen, S. Mukerjee, V. Di Noto, B. Y. Liaw Battery, Energy Technology, Industrial Electrochemistry and Electrochemical Engineering

Corrosion General Poster Session R. Buchheit Corrosion

Abst 1238Abst 12461245 1252 Continental 3, Continental 3, Tower 3, Tower 3, Ballroom Level Ballroom Level Abst 12531263 Continental 1, Tower 3, Ballroom Level

Monday, October 28

Tuesday,

Abst 952-956 Continental 6, Tower 3, Ballroom Level Abst 957-961 Continental 5, Tower 3, Ballroom Level Abst 962-967 Continental 6, Tower 3, Ballroom Level Abst 968-973 Continental 5, Tower 3, Ballroom Level

Abst 974-978 Continental 6, Tower 3, Ballroom Level Abst 979-983 Continental 5, Tower 3, Ballroom Level

Abst 984-988 Continental 6, Tower 3, Ballroom Level Abst 989-993; Abst 994-1000 Continental 5, Tower 3, Ballroom Level Abst 1001-1007 Continental 6, Tower 3, Ballroom Level

Abst 12641268 Continental 1-3, Tower 3, Ballroom Level

Abst 12691271 Continental 1-3, Tower 3, Ballroom Level

Abst 1272-1280 Continental 2, Tower 3, Ballroom Level Abst 1281-1288 Golden Gate 4, Tower 3, Lobby Level Abst 1289-1298 Continental 1, Tower 3, Ballroom Level Abst 1299-1308 Continental 3, Tower 3, Ballroom Level Abst 1309-1317 Golden Gate 5, Tower 3, Lobby Level Abst 1658-1668 Golden Gate 8, Tower 3, Lobby Level

Meeting Program l October 27â&#x20AC;&#x201C;November 1, 2013 l San Francisco, CA

San Francisco, CA l Oct. 27– Nov.1, 2013 October 29

Wednesday, October 30

Thursday, October 31

Friday, November 1

Abst 1008-1012 Continental 5, Tower 3, Ballroom Level Abst 1013-1018; Abst 1019-1024 Continental 6, Tower 3, Ballroom Level Abst 1025-1031 Continental 5, Tower 3, Ballroom Level Post 1032-1114 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 1115-1119 Continental 5, Tower 3, Ballroom Level Abst 1120-1124; Abst 1125-1131 Continental 6, Tower 3, Ballroom Level Abst 1132-1138 Continental 5, Tower 3, Ballroom Level

Abst 1139-1143 Continental 5, Tower 3, Ballroom Level Abst 1144-1149 Continental 6, Tower3, Ballroom Level Abst 1150-1154 Continental 5, Tower 3, Ballroom Level Abst 1155-1161 Continental 6, Tower 3, Ballroom Level

Abst 1162-1166 Continental 5, Tower 3, Ballroom Level Abst 1167-1171; Abst 1172-1177 Continental 6, Tower 3, Ballroom Level Abst 1178-1184 Continental 5, Tower 3, Ballroom Level

Abst 1185-1189 Continental 5, Tower 3, Ballroom Level Abst 1190-1195 Continental 6, Tower 3, Ballroom Level Abst 1196-1199 Continental 5, Tower 3, Grand Ballroom Abst 1200-1204 Continental 6, Tower 3, Ballroom Level

Abst 1205-1209 Continental 6, Tower 3, Ballroom Level Abst 1210-1214 Continental 5, Tower 3, Ballroom Level Abst 1215-1219 Continental 6, Tower 3, Ballroom Level Abst 1220-1225 Continental 5, Tower 3, Ballroom Level

Abst 12261230 Continental 5, Tower 3, Ballroom Level Abst 12311237 Continental 6, Tower 3, Ballroom Level

Abst 1318-1327 Continental 1, Tower 3, Ballroom Level Abst 1328-1337 Continental 2, Tower 3, Ballroom Level Abst 1338-1346 Golden Gate 4, Tower 3, Lobby Level Abst 1347-1356 Continental 3, Tower 3, Ballroom Level Abst 1357-1367 Golden Gate 5, Tower 3, Lobby Level

Abst 1368-1376 Continental 2, Tower 3, Ballroom Level Abst 1377-1385 Golden Gate 5, Tower 3 Lobby Level Abst 1386-1394 Golden Gate 4, Tower 3, Lobby Level Abst 1395-1405 Continental 3, Tower 3, Ballroom Level Abst 1406-1414 Continental 1 Tower 3, Ballroom Level

Abst 1415-1425 Abst 1541-1549 Continental 1, Continental 1, Tower 3, Tower 3, Ballroom Level Ballroom Level Abst 1426-1436 Abst. 1550-1559 Golden Gate 4, Continental 2, Tower 3, Tower 3, Lobby Level Ballroom Level Abst 1437-1446 Abst 1560-1568 Continental 3, Continental 3, Tower 3, Tower 3, Ballroom Level Ballroom Level Abst 1447-1455 Abst 1569-1576 Golden Gate 5, Golden Gate 5, Tower 3, Tower 3, Lobby Level Lobby Level Post 1456-1540 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 1577-1586 Continental 1, Tower 3, Ballroom Level Abst 1587-1597 Continental 3, Tower 3, Ballroom Level Abst 1598-1608 Golden Gate 5, Tower 3, Lobby Level Abst 1609-1620 Continental 2, Tower 3, Ballroom Level

Abst 1621-1626 Continental 1, Tower 3, Ballroom Level Abst 1627-1636 Continental 2, Tower 3, Ballroom Level Abst 1637-1647 Continental 3, Tower 3, Ballroom Level Abst 1648-1657 Continental 7, Tower 3, Ballroom Level

Abst 1669-1678 Golden Gate 8, Tower 3, Lobby Level

Abst 1679-1689 Golden Gate 8, Tower 3, Lobby Level

Abst 1690-1698 Golden Gate 8, Tower 3, Lobby Level

Post 1699-1722 Grand Ballroom, Tower 2, Grand Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Abst 1723-1732 Union Square 3/4, Tower 3, 4th Floor

224th ECS Meeting Sunday, October 27

Monday, October 28

Code

Technical Symposia

Atmospheric Corrosion D. Hansen, R. Calhoun, R. Kelly, C. Leygraf Corrosion, Physical and Analytical Electrochemistry

Degradation of Carbon Structural Materials D. Hansen, L. Hihara Corrosion, New Technology Subcommittee

Mass Transport Phenomena in Localized Corrosion R. S. Lillard, R. Kelly Corrosion

Abst 1768Abst 17771772; 1779; Abst 1773Abst 17801776 1785 Golden Gate 4, Golden Gate 4, Tower 3, Tower 3, Lobby Level Lobby Level

Oxide Films: A Symposium in Honor of Clive Clayton on his 65th Birthday S. Fujimoto, D. Baer, D. Chidambaram, G. Halada, M. Jaime-Vasquez, D. Roeper Corrosion

Abst 1786Abst 17961789; 1803 Abst 1790Golden Gate 2, 1791; Tower 3, Abst 1792Lobby Level 1795 Golden Gate 2, Tower 3, Lobby Level

Biodegradable and Bioabsorbable Metals and Materials R. Buchheit, B. Shaw Corrosion

Solid State Topics General Session K. Sundaram, X. Wang, O. M. Leonte, H. Iwai, R. Todi, K. Shimamura Dielectric Science and Technology, Electronics and Photonics, Energy Technology

Atomic Layer Deposition Applications 9 F. Roozeboom, S. De Gendt, A. Delabie, J. Elam, A. Londergan, O van der Straten Dielectric Science and Technology, Electronics and Photonics

Tuesday, AM

Abst 1763-1767 Golden Gate 1, Tower 3, Lobby Level

Abst 1804-1813 Golden Gate 2, Tower 3, Lobby Level

Meeting Program l October 27â&#x20AC;&#x201C;November 1, 2013 l San Francisco, CA

San Francisco, CA l Oct. 27– Nov.1, 2013 October 29 PM

Abst 1814-1815; Abst 1816-1821 Golden Gate 2, Tower 3, Lobby Level

Wednesday, October 30 AM

Thursday, October 31

Friday, November 1

Abst 1876-1883 Continental 8, Tower 3, Ballroom Level

Abst 1884-1886; Abst 1887-1891 Continental 8, Tower 3, Ballroom Level

Abst 1733-1742 Union Square 15/16, Tower 3, 4th Floor

Abst 1743-1746; Abst 1752-1759; Abst 1747-1749; Abst 1760-1762 Abst 1750-1751 Union Square Union Square 15/16, 15/16, Tower 3, Tower 3, 4th Floor 4th Floor

Abst 1822-1831 Golden Gate 2, Tower 3, Lobby Level

Abst 1832-1837; Abst 1838-1841 Golden Gate 2, Tower 3, Lobby Level

Abst 1842-1846 Golden Gate 1, Tower 3, Lobby Level Abst 1847-1853 Union Square 21, Tower 3, 4th Floor Post 1854-1856 Grand Ballroom, Tower 2, Grand Ballroom Level Absts 18571858; Abst 1859-1861 Continental 8, Tower 3, Ballroom Level Post 1862-1868 Grand Ballroom, Tower 2, Grand Ballroom Level Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Abst 1869-1875 Continental 8, Tower 3, Ballroom Level

224th ECS Meeting Sunday, October 27

Monday, October 28

Tuesday,

Code

Technical Symposia

GaN and SiC Power Technologies 3 K. Shenai, M. Bakowski, M. Dudley, N. Ohtani Electronics and Photonics, Dielectric Science and Technology

Abst 18921896; Abst 18971902 Continental 9, Tower 3, Ballroom Level

Abst 1903Abst 1909-1914; 1908 Abst 1915-1920 Continental 9, Continental 9, Tower 3, Tower 3, Ballroom Level Ballroom Level

Low-Dimensional Nanoscale Electronics and Photonic Devices 6 M. Suzuki, S. Albin, M. Carter, L.-J. Chou, Y-L Chueh, S. Jin, R. Martin-Palma Electronics and Photonics, Dielectric Science and Technology, Sensor

Abst 19551958 Yosemite C, Tower 2, Ballroom Level

Abst 1959Abst 1964-1966; 1963 Abst 1967-1971 Yosemite C, Yosemite C, Tower 2, Tower 2, Ballroom Level Ballroom Level

Nonvolatile Memories S. Shingubara, H. Akinaga, Z. Karim, Y. Kim, K. Kobayashi, K.-J. Lee, B. Magyari-Kope, T. Ohyanagi, A. Sebastian, Y. Suzuki, N. Takaura Dielectric Science and Technology, Electronics and Photonics

Photovoltaics for the 21st Century 9 M. Tao, C. Claeys, L. Deligianni, J. Fenton, M. E. Overburg, J.-G. Park, K. Rajeshwar, M. Sunkara Dielectric Science and Technology, Electrodeposition, Electronics and Photonics, Energy Technology, Industrial Electrochemistry and Electrochemical Engineering

Processing, Materials, and Integration of Damascene and 3D Interconnects 5 K. Kondo, R. Akolkar, D. P. Barkey, W.-P. Dow, M. Hayase, M. Koyanagi, S. Mathad, P. Ramm, F. Roozeboom, S. Shingubara Dielectric Science and Technology, Electrodeposition, Electronics and Photonics, High Temperature Materials

Abst 2026-2033 Union Square 12, Tower 3, 4th Floor

Abst 20522056 Union Square 21, Tower 3, 4th Floor

Abst 20572058; Abst 20592062 Union Square 21, Tower 3, 4th Floor

Abst 2063-2073 Union Square 21, Tower 3, 4th Floor

Meeting Program l October 27â&#x20AC;&#x201C;November 1, 2013 l San Francisco, CA

San Francisco, CA l Oct. 27– Nov.1, 2013 October 29

Wednesday, October 30

Thursday, October 31

Friday, November 1 AM

Abst 1921-1927; Panel Session 1 Continental 9, Tower 3,Ballroom Level

Abst 1928-1933; Abst 1934-1940 Continental 9, Tower 3, Ballroom Level

Abst 1941-1944; Abst 1945-1948; Panel Session 2 Continental 9, Tower 3, Ballroom Level

Abst 1949-1954 Continental 9, Tower 3, Ballroom Level

Abst 1972-1975; Abst 1976-1979 Yosemite C, Tower 2, Ballroom Level

Abst 1980-1982; Abst 1983-1986 Powell Room, Tower 3, 6th Floor

Abst 1987-1989; Abst 1990-1994 Golden Gate 1, Tower 3, Lobby Level

Abst 1995-1998; Abst 2009-2013; Abst 2018-2021; Abst 1999-2003 Abst 2014-2017 Abst 2022-2025 Golden Gate 1, Golden Gate 1, Golden Gate 1, Tower 3, Tower 3, Tower 3, Lobby Level Lobby Level Lobby Level Post 2004-2008 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2034-2040 Union Square 12, Tower 3, 4th Floor Post 2041-2051 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2074; Abst 2085-2093 Abst 2075-2084 Union Square 21, Union Square 21, Tower 3, Tower 3, 4th Floor th 4 Floor

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

224th ECS Meeting Sunday, October 27 Code

Technical Symposia

Monday, October 28

Tuesday,

Semiconductor Cleaning Science and Technology 13 (SCST 13) J. Ruzyllo, T. Hattori, P. Mertens, R. Novak Electronics and Photonics

Abst 2094; Abst 20952099 Continental 8, Tower 3, Ballroom Level

Abst 21002107 Continental 8, Tower 3, Ballroom Level

Abst 2108-2114 Continental 8, Tower 3, Ballroom Level

E10

Semiconductors, Dielectrics, and Metals for Nanoelectronics 11 S. Kar, M. Houssa, H. Jagannathan, K. Kita, D. Landheer, D. Misra, S. Van Eishocht Dielectric Science and Technology, Electronics and Photonics

Abst 21372144; Abst 21452146 Union Square 22, Tower 3, 4th Floor

Abst 21472152 Union Square 22, Tower 3, 4th Floor

Abst 2153-2156; Abst 2157-2160 Union Square 22, Tower 3, 4th Floor

E11

State-of-the-Art Program on Compound Semiconductors (SOTAPOCS) 55 C. O’Dwyer, E. Douglas, J.-H. He, S. Jang Electronics and Photonics

Abst 2192Abst 2199Abst 2203-2205; 2194; 2202 Abst 2206-2209 Abst 2195Golden Gate 7, Golden Gate 7, 2198 Tower 3, Tower 3, Golden Gate 7, Lobby Level Lobby Level Tower 3, Lobby Level

E12

ULSI Process Integration 8 C. Claeys, S. Deleonibus, H. Iwai, J. Murota, M. Tao Electronics and Photonics

Abst 22132214; Abst 22152217 Continental 7, Tower 3, Ballroom Level

Current Trends in Electrodeposition An Invited Symposium C. Bonhôte Electrodeposition

Emerging Materials and Processes for Energy Conversion and Storage Y. Fukunaka, L. Deligianni, C. Johnson, T. Nguyen, P. Vereecken Electrodeposition, Battery

Fundamentals and Applications of Electrophoretic Deposition J. Talbot, J. Dickerson, J. Fransaer Electrodeposition

Abst 2218Abst 2223-2225; 2219; Abst 2226-2230 Abst 2220Continental 7, 2222 Tower 3, Continental 7, Ballroom Level Tower 3, Ballroom Level

Abst 22542259 Franciscan B, Tower 1, Ballroom Level

Abst 23022310 Franciscan A, Tower 1, Ballroom Level

Abst 23112316 Franciscan A, Tower 1, Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

San Francisco, CA l Oct. 27– Nov.1, 2013 October 29

Wednesday, October 30

Abst 2115-2118; Abst 2119-2124 Continental 8, Tower 3, Ballroom Level Post 2125-2128 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2129-2134; Abst 2135-2136 Continental 8, Tower 3, Ballroom Level

Thursday, October 31

Friday, November 1

Abst 2284-2293 Golden Gate 7, Tower 3, Lobby Level

Abst 2294-2301 Golden Gate 7, Tower 3, Lobby Level

Abst 2161-2166 Abst 2177-2180; Abst 2184-2188; Union Square 22, Abst 2181-2183 Abst 2189-2191 Tower 3, Union Square 22, Union Square 4th Floor Tower 3, 22, Post 2167-2176 4th Floor Tower 3, Grand Ballroom, 4th Floor Tower 2, Grand Ballroom Level Post 2210-2212 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2231-2234; Abst 2235-2238 Continental 7, Tower 3, Ballroom Level

Abst 2239-2241; Abst 2242-2244 Continental 7, Tower 3, Ballroom Level

Abst 2245-2249 Continental 7, Tower 3, Ballroom Level

Abst 2250-2253 Franciscan B, Tower 1, Ballroom Level Post 2260-2272 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2273-2283 Golden Gate 7, Tower 3, Lobby Level

Post 2318-2320 Grand Ballroom, Tower 2, Grand Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

224th ECS Meeting Sunday, October 27 Code

Technical Symposia

Fundamentals of Electrochemical Growth - From UPD to Microstructures 3 S. Brankovic, Y. Fukunaka, T. Homma, M. Innocenti, N. Vasiljevic Electrodeposition

Emerging Opportunities in Electrochemical Deposition for Nanofabrication R. Akolkar, M. Anderson, M. Buck, T. P. Moffat Electrodeposition, Physical and Analytical Electrochemistry

Alkaline Electrolyzers G. Botte, K. Ayers, B. Y. Liaw, S. Mukerjee, V. Ramani Industrial Electrochemistry and Electrochemical Engineering, Battery, Energy Technology, Physical and Analytical Electrochemistry

Synthesis and Electrochemical Engineering General Session G. Botte, J. Staser Industrial Electrochemistry and Electrochemical Engineering

Carbon Nanostructures 4 Fullerenes to Graphene D. M. Guldi, P. Atanassov, M. Carter, H. Martin, K. Zaghib Fullerenes, Nanotubes and Carbon Nanostructures, Dielectric Science and Technology, Energy Technology, Physical and Analytical Electrochemistry, Sensor

Physical and Analytical Electrochemistry Division General Session P. Kulesza Physical and Analytical Electrochemistry

Monday, October 28 AM

Tuesday, AM Abst 2321-2324 Union Square 11, Tower 3, 4th Floor

Abst 23652373 Union Square 23/24, Tower 3, 4th Floor

Abst 24552465 Union Square 15/16, Tower 3, 4th Floor

Abst 23742378 Union Square 23/24, Tower 3, 4th Floor

Abst 2379-2387 Union Square 23/24, Tower 3, 4th Floor

Abst 24292436 Union Square 13, Tower 3, 4th Floor

Abst 2437-2448 Union Square 13, Tower 3, 4th Floor

Abst 24662472 Union Square 15/16, Tower 3, 4th Floor

Abst 2473-2483 Union Square 15/16, Tower 3, 4th Floor

Meeting Program l October 27â&#x20AC;&#x201C;November 1, 2013 l San Francisco, CA

San Francisco, CA l Oct. 27– Nov.1, 2013 October 29 PM

Wednesday, October 30 AM

Abst 2325-2328; Abst 2340-2344; Abst 2329-2334 Abst 2345-2349 Union Square 11, Union Square 11, Tower 3, Tower 3, 4th Floor 4th Floor Post 2335-2339 Grand Ballroom, Tower 2, Grand Ballroom Level Abst 2388-2396 Union Square 23/24, Tower 3, 4th Floor Post 2397 Grand Ballroom, Tower 2, Grand Ballroom Level

Thursday, October 31

Friday, November 1

Abst 2350-2358 Abst 2359-2364 Union Square Union Square 11, 11, Tower 3, Tower 3, 4th Floor th 4 Floor

Abst 2398-2401 Union Square 23/24, Tower 3, 4th Floor

Abst 2402-2412 Union Square 25, Tower 3, 4th Floor

Abst 2413-2421 Post 2422-2428 Union Square 14, Grand Ballroom, Tower 3, Tower 2, 4th Floor Grand Ballroom Level Post 2449-2454 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2484-2491 Union Square 15/16, Tower 3, 4th Floor Post 2492-2501 Grand Ballroom, Tower 2, Grand Ballroom Level Meeting Program l October 27–November 1, 2013 l San Francisco, CA

224th ECS Meeting Sunday, October 27

Monday, October 28

Tuesday,

Code

Technical Symposia

Invitational Symposium in Honor of Adam Heller on his 80th Birthday S. C. Barton, P. Atanassov, E. Cairns, S. Minteer Physical and Analytical Electrochemistry, Battery, Energy Technology, Organic and Biological Electrochemistry

Abst 2502Abst 25072506 2511 Golden Gate 3, Golden Gate 3, Tower 3, Tower 3, Lobby Level Lobby Level

Photoelectrochemistry and Photoassisted Electrocatalysis T. Zawodzinski, E. McFarland, V. Subramanian, J. Turner, H. Wang Physical and Analytical Electrochemistry

Abst 25322535; Abst 25362539 Imperial B, Tower 2, Ballroom Level

Abst 2540Abst 2546-2549; 2545 Abst 2550-2554 Imperial B, Imperial B, Tower 2, Tower 2, Ballroom Level Ballroom Level

Physical and Analytical Electrochemistry in Ionic Liquids 3 H. DeLong, M. Carter, J. Fransaer, R. Mantz, P. Trulove Physical and Analytical Electrochemistry, Battery, Electrodeposition, Sensor

Abst 25992604; Abst 26052609 Union Square 11 Tower 3, 4th Floor

Abst 26102614; Abst 26152617 Union Square 11 Tower 3, 4th Floor

Processes 8 A. Hillier, J. Prakash Physical and Analytical Electrochemistry, Energy Technology

Sensors, Actuators, and Microsystems General Session M. Carter, Z. Aguilar, B. Chin, G. Hunter, P. Sekhar Sensor

Impedance Techniques, Diagnostics, and Sensing Applications V. Lvovich, D. Hansen, A. Khosla, M. Orazem, M. Smiechowski, P. Vanýsek Sensor, Corrosion, Industrial Electrochemistry and Electrochemical Engineering, Physical and Analytical Electrochemistry

AM Abst 2512-2519 Golden Gate 3, Tower 3, Lobby Level

Abst 2618-2627 Union Square 14, Tower 3, 4th Floor Abst 26322638; Abst 26392642 Union Square 25, Tower 3, 4th Floor

Abst 2643; Abst 26442646 Union Square 25, Tower 3, 4th Floor

Abst 2647-2656 Union Square 25, Tower 3, 4th Floor

Abst 2683-2688; Abst 2689-2692; Abst 2693-2694 Franciscan B, Tower 1, Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

San Francisco, CA l Oct. 27– Nov.1, 2013 October 29

Wednesday, October 30

Abst 2520-2526 Golden Gate 3, Tower 3, Lobby Level

Abst 2527-2531 Golden Gate 3, Tower 3, Lobby Level

Abst 2555-2558; Abst 2559-2563 Imperial B, Tower 2, Ballroom Level

Abst 2564-2568; Abst 2569-2573 Imperial B, Tower 2, Ballroom Level

Thursday, October 31

Friday, November 1

Abst 2574-2582 Imperial B, Tower 2, Ballroom Level Post 2583-2598 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2628-2631 Union Square 14, Tower 3, 4th Floor Abst 2657-2665 Union Square 25, Tower 3, 4th Floor Post 2666-2682 Grand Ballroom, Tower 2, Grand Ballroom Level Abst 2695-2698; Abst 2699-2703 Franciscan B, Tower 1, Ballroom Level Post 2704-2706 Grand Ballroom, Tower 2, Grand Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

224th ECS Meeting Sunday, October 27 Code

Technical Symposia

Monday, October 28

Tuesday,

Luminescence and Display Materials - Fundamentals and Applications J. Collins, U. Happek, C. Hunt, K. Mishra Luminescence and Display Materials

Abst 27072711 Union Square 3/4, Tower 3, 4th Floor

Abst 27122716 Union Square 3/4, Tower 3, 4th Floor

Abst 2717-2725 Union Square 3/4, Tower 3, 4th Floor

Microfluidic MEMS/NEMS, Sensors and Devices P. Vanysek, D. Cliffel, P. Hesketh, A. Khosla Sensor, Physical and Analytical Electrochemistry, New Technology Subcommittee

Abst 27532757 Union Square 5/6, Tower 3, 4th Floor

Abst 27582763 Union Square 5/6, Tower 3, 4th Floor

Abst 2764-2772 Union Square 5/6, Tower 3, 4th Floor

Sensors for Agriculture B. Chin, P. Hesketh, S. Minteer, A. Simonian Sensor, Physical and Analytical Electrochemistry

Abst 2805-2808 Franciscan A, Tower 1, Ballroom Level

Meeting Program l October 27â&#x20AC;&#x201C;November 1, 2013 l San Francisco, CA

San Francisco, CA l Oct. 27– Nov.1, 2013 October 29

Wednesday, October 30

Abst 2726-2732 Union Square 3/4, Tower 3, 4th Floor Post 2733-2744 Grand Ballroom, Tower 2, Grand Ballroom Level

Abst 2745-2750 Union Square 3/4, Tower 3, 4th Floor

Abst 2751-2752 Union Square 3/4, Tower 3, 4th Floor

Abst 2773-2781 Union Square 5/6, Tower 3, 4th Floor

Abst 2782-2790 Union Square 5/6, Tower 3, 4th Floor

Abst 2791-2798 Union Square 5/6, Tower 3, 4th Floor Post 2799-2804 Grand Ballroom, Tower 2, Grand Ballroom Level

Thursday, October 31

Friday, November 1

Abst 2809-2810 Franciscan A, Tower 1, Ballroom Level Post 2811-2844 Grand Ballroom, Tower 2, Grand Ballroom Level

Meeting Program l October 27–November 1, 2013 l San Francisco, CA

Sunday, October 27

Technical Sessions 11:20

1245

Sunday, October 27 Polymer Electrolyte Fuel Cells 13

Industrial Electrochemistry and Electrochemical Engineering / B11 Battery / Corrosion / Energy Technology / Physical and Analytical Electrochemistry Continental 3, Tower 3, Ballroom Level, Hilton San Francisco Union Square

D-01 Pt-based Cathode Catalysts 1 – 08:40 – 12:00 Co-Chair(s): Hiroyuki Uchida and Bryan S. Pivovar 08:40

09:00

09:20

1238

1239

1240

09:40 10:00 1241

10:20

10:40

11:00

1242

1243

1244

Standardizing Thin-Film Rotating Disk Electrode Measurements of the Oxygen Reduction Activity of Pt/C – Yannick Garsany (EXCET Inc), Junjie Ge, Jean StPierre, Richard Rocheleau (Hawaii Natural Energy Institute, University of Hawaii Manoa), and Karen Swider-Lyons (Naval Research Laboratory) Influence of Film Morphology On the Oxygen Reduction Reaction Activity in Rotating Disk Electrode Studies – Kazuma Shinozaki (Toyota Central R&D Labs, Inc, Colorado School of Mines), Bryan S Pivovar, and Shyam S Kocha (National Renewable Energy Laboratory) DFT-Based Theoretical Insights Into the Mechanism of the Oxygen Reduction Reaction On Pt(111) – Shengli Chen (Wuhan University) Intermission Spatially-Resolved Modeling of Electric Double Layers for the Oxygen Reduction Reaction in Water-Filled Platinum Electrodes – Iryna V Zenyuk (Mechanical Engineering,Carnegie Mellon University) and Shawn Litster (Mechanical Engineering, Carnegie Mellon University) Effect of Pt Particle Size and Shape On ORR Activity and Catalyst Durability – Pieter Levecque and Olaf Conrad (HySA/ Catalysis Centre of Competence - Centre for Catalysis Research - Department of Chemical Engineering - University of Cape Town) Reversible Nanoparticle Formation As a Potential Strategy for PEMFC Catalyst Regeneration – Roman Latsuzbaia, Emanuela Negro, and Ger Koper (Delft University of Technology) Carbon-supported Pt nanowires catalyst for oxygen reduction reaction in PEMFC – Bing Li (School of Automotive Studies)

Extended Surface Pt Electrocatalysts: Synthesis and Challenges in Fuel Cell Applications – Bryan S Pivovar, KC Neyerlin, Shaun M Alia, Brian A Larsen (National Renewable Energy Laboratory), Svitlana Pylypenko (Colorado School of Mines), David A Cullen (Oak Ridge National Laboratory), David R Diercks (Colorado School of Mines), and Shyam S Kocha (National Renewable Energy Laboratory)

D-02 Pt-based Cathode Catalysts 2 – 14:00 – 17:00 Co-Chair(s): Seiho Sugawara and Vojislav R. Stamenkovic 14:00

1246