201st Meeting - Philadelphia, PA
May 12-17, 2002
PROGRAM INFORMATION
AF4 - Progress In Methods Used To Solve Electrochemical Problems: Part 3 - New Developments In Optical Methods
Physical Electrochemistry
Wednesday, May 15, 2002
Conference Room 309, Level 3
Co-Chairs: T. Kuwana and W.R. Heineman
| Time | Abs# | Title |
|---|
| 8:00 | 1316 |
Electron-Transfer Stopped-Flow Method for the Spectroscopic Detection and Kinetic Analysis of Cation Radicals - M.
Oyama, H. Park, M. Goto, and J. Matsui (Kyoto University) |
| 8:20 | 1317 |
The Diffusion Boundary Layer Of a Rotating Disk Electrode As a Thin Layer Spectroelectrochemical Cell - P. Shi and D. Scherson (Case Western Reserve University) |
| 8:40 | 1318 |
Optical Detection of the Nanometric Dynamics of a Colloidal Particle Adjacent to an Electrode Passing Alternating Current - J. Fagan, P. Sides, and D. Prieve (Carnegie Mellon University) |
| 9:00 | 1319 |
Anodic Oxide Film Growth on Zirconium Observed with In Situ Neutron Reflectometry - J. Noel (University of Western Ontario), Z. Tun (Neutron Program for Materials Research), H. Jensen, and D. Shoesmith (University of Western Ontario) |
| 9:20 | 1320 |
The Photoluminescence: An In-situ Optical Method for Studying the Semiconductor Electrochemistry - A.
Etcheberry, I. Gerard, and P. Tran-Van (IREM) |
| 9:40 | 1321 |
Molecular Structures on Solid Surface Studied by Broad-band Sum Frequency Generation (SFG) Spectroscopy - S. Ye (Hokkaido University), H. Noda, S. Morita (Presto,
JST), and M. Osawa (Hokkaido University) |
| 10:00 | 1322 |
Study on Diffusion Process of Hydrogen in Solid Metal With Spectroellipsiometry - Z. Shengtao and M. Yan
(Chonqing University) |
| 10:20 | 1323 |
A New Approach for Studying Electrode Process Through Measuring Ellipsometric Papramter of Liquid Layer Adjacent to the Electrode -
Z.Q. Huang, W. Zhu, S.F. Xie, Y.R. Yang, and S.T. Zhang (University Chongqing) |
Co-Chairs: T. Kuwana and W.R. Heineman
| Time | Abs# | Title |
|---|
| 1:40 | |
Introductory Remarks by Ted Kuwana - |
| 1:45 | 1324 |
Sensors Based on Spectroelectrochemistry - W.
Heineman, M. Stegemiller, M. Maizels, J. DiVirgilio-Thomas, T. Rarog, S. Conklin, J. Paddock, I.
Zudans, D. Monk, T. Ridgway, C. Seliskar (University of Cincinnati), S. Bryan, and T. Hubler (Pacific Northwest National Laboratory) |
| 2:15 | 1325 |
The Electrochemical and Optical Properties of Diamond Optically Transparent Electrodes - J. Zak (Silesian Technical University), J.
Stotter, S. Haymond, Y. Show (Michigan State University), J. Butler (Naval Research Laboratory), and G. Swain (Michigan State University) |
| 2:45 | 1326 |
Spectroelectrochemistry on ATR and Integrated Optic Waveguide Elements: Evolving from Monochromatic Studies to True Broad-Band Spectroelectrochemistry - J. Bradshaw, W. Doherty, S.
Saavedra, N. Armstrong, and S. Mendes (University of Arizona) |
| 3:15 | |
Fifteen-Minute Intermission - |
| 3:30 | 1327 |
Electrochemical Surface Plasmon Resonance (SPR) Method; New Technique for Optp-Electrochemistry and Electrochemical Imaging - Y. Iwasaki (NTT Corporation), T. Tobita (NTT Advanced Technology Corporation), K. Kurihara (Kanagawa Academiy of Science and Technology), K. Suzuki (Keio University), and O. Niwa (NTT Corporation) |
| 4:00 | 1328 |
In Situ Optical Studies of Interfacial Dynamics in the Submicrosecond Regime - B.
Pozniak, Z. Wang, and D. Scherson (Case Western Reserve University) |
| 4:30 | 1329 |
New Advances in Electrochemical Surface-Enhanced Raman Spectroscopy - R. Van Duyne (Northwestern University), L. Dick (3M Drug Delivery Systems), C. Haynes, A.
Haes, and A. McFarland (Northwestern University) |
| 5:00 | |
Closing Remarks by Neal Armstrong - |
|
