198th Meeting - Phoenix, Arizona

October 22-27, 2000

PROGRAM INFORMATION

Q1 - Electrochemistry of Carbon Electrodes

Physical Electrochemistry Division/Battery Division

Monday, October 23, 2000

Tucson 40

Electrochemically and Chemically Modified Carbon Electrodes

Co-Chairs: M.T. McDermott and D. Belanger

TimeAbs#TitleView
10:00968 Electrochemical Modification of Carbon Surfaces - J. Pinson (Universite Paris 7-Denis Diderot) PDF
10:30969 Formation of Metallic Particles at Carbon Electrode Electrochemically Modified with Substituted Phenyl Groups - T. Addou and D. Belanger (Universite du Quebec a Montreal, UQAM) PDF
10:50970 High Resolution Scanning Force Microscopic Characterization of Activated Glassy Carbon Electrodes - G. Kiema and M. McDermott (University Of Alberta) PDF
11:10971 Carbon Microstructures for Electrochemical Studies - R. Kostecki, X. Song, and K. Kinoshita (Lawrence Berkeley National Laboratory) PDF
11:30972 Structure of Boron-Doped HOPG Observed by Scanning Probe Microscopy - E. Kim and J. Kwak (Korea Advanced Institute of Science and Technology) PDF

Novel Carbon Electrode Materials

Co-Chairs: R.L. McCreery and O.M.R. Chyan

TimeAbs#TitleView
1:30973 Structural and Chemical Factors Influencing the Electrochemical Response of Conductive Microcrystalline and Nanocrystalline Diamond Thin Film Electrodes - G. Swain (Michigan State University) PDF
2:00974 Deposition of Metal Nanoparticles on Diamond Surface via a Solution Route - T. Arunagiri, J.-S. Gao, J.-J. Chen, P. Goodwill, and O. Chyan (University of North Texas) PDF
2:20975 Effect of Nitrogen Concentration on the Electrochemical Behaviour of Amorphous Hydrogenated Carbon a-C:H:N Films - H. Cachet, C. Deslouis, M. Chouiki, B. Saidani (UPR15 CNRS), N. Conway, and C. Godet (CNRS-Ecole Polytechnique) PDF
2:40976 Preparation and Electrochemical Characterization of Silicon Carbonitride Thin Film Electrodes - F. Regisser (UQAM), J. He, J.F. Harrod (McGill University), and D. Belanger (UQAM) PDF
3:10 Twenty-Minute Intermission
3:30977 Electrochemical Behaviour of Carbon-Rich Fluorine Doped Transparent Tin Dioxide Films - H. Cachet, C. Cachet, G. Folcher (Universite Paris 6), and T. Toupance (Universite de Bordeaux I) PDF
4:00978 Novel Carbon Electrode Materials Having Unusual Reactivity and Stability - R. McCreery, S. DuVall, S. Ranganathan, and I. Steidel (The Ohio State University) PDF
4:20979 Effects of the Presence of N2 in CH4/Ar Plasma on the Microstructure and Electrochemical Properties of Ultrananocrystalline Diamond Thin Films - Q. Chen, G. Swain (Utah State University), D. Gruen, and A. Krauss (Argonne National Laboratory) PDF
4:40980 The Effects of Pore Size on the Capacitive Behavior of Porous Carbon Electrode - J.-H. Sung, H.-K. Song, and K.-H. Lee (Pohang University of Science and Technology) PDF

Tuesday, October 24, 2000

Applications in Electroanalysis and Electrocatalysis

Co-Chairs: G.M. Swain and M.T. McDermott

TimeAbs#TitleView
9:00981 On-column Modification of Carbon Stationary Phases Used For Electrochemically Modulated Liquid Chromatography (EMLC) - J. Harnisch, D. Gazda, H. Takano, Z. Hu, D. Keller, and M. Porter (Iowa State University and Ames Laboratory) PDF
9:30982 High Capacity Metal Hexacyanoferrate Composite Electrodes for Electrochemically Switchable Ion Exchange - J.A. Medina, J. Reyes-Gomez (Universidad de Guadalajara), D. Schwartz, and K. Jeerage (University of Washington) PDF
9:50 Thirty-Minute Intermission
10:20983 Adsorption and Desorption Kinetics of Catecholamines at Carbon Fiber Microelectrodes - B. Bath, D. Michael, J. Trafton, and M. Wightman (University of North Carolina at Chapel Hill) PDF
10:50984 The Oxygen Depolarized Cathodes for Chlor-Alkali Membrane Cell - N. Furuya and H. Aikawa (Yamanashi University) PDF
11:10985 The Physical Correspondance of the Constant Phase Element in Microporous Carbon Electrodes - H. Probstle, R. Saliger, and J. Fricke (University of Wurzburg) PDF
11:30986 Carbon Nanotube Powder Microelectrodes for Nitrite Reduction - P. Liu and J. Hu (Wuhan University) PDF

Electrodes for Lithium Batteries

Co-Chairs: K. Zaghib and K. Kinoshita

TimeAbs#TitleView
1:30987 Lithium Intercalation into Graphite: Estimating Diffusion Coefficient and Exchange Current from the Discharge Curves - V. Subramanian, P. Yu, B. Popov, and R. White (University of South Carolina) PDF
1:50988 Effect of Graphite Material Structure on the Dynamics of Lithium-Ion Intercalation from Nonaqueous Electrolytes - E. Shembel, N. Globa, V. Tysyachny, O. Ksenzhek, T. Pastushkin (Ukrainian State Chemical Technology University), P. Novak (OnPower Battery), L. Vishnyakov, and V. Kokhany (Institute for the Problems of Materials Science of National Academy of Science) PDF
2:10989 Effects of Graphite Particle Size on Irreversible Capacity Loss in Li-Ion Batteries - K. Zaghib, G. Nadeau, A. Guerfi, F. Brochu (Institut de Recherche d'Hydro-Quebec), and K. Kinoshita (Lawrence Berkeley National Laboratory) PDF
2:30990 The Influence of Carbon Deposition on the Properties of Carbon Aerogels - R. Petricevic (Bavarian Center for Applied Energy Research) and J. Fricke (University of Wurzburg) PDF
2:50991 A Molecular Dynamics Simulation of Hydrogen Storage with SWNTs - S. Maruyama and T. Kimura (The University of Tokyo) PDF
3:10 Twenty-Minute Intermission
3:30992 Fabrication and Properties of Vanadium Oxide Aerogel/Carbon Nanotube Composite Electrodes for Lithium Batteries - J. Sakamoto and B. Dunn (University of California) PDF
3:50993 Electrochemical Performance of Sepiolite-Derived Carbon with Lithium Transition Metal Oxide Positive Electrodes - G. Sandi, C. Johnson, R.E. Gerald, R. Klingler, K.A. Carrado, and R.E. Winans (Argonne National Laboratory) GIF
4:10994 Synthesis, Structural Characterization and Hydrogen Sorption of Carbon Nanofibers - T. Schliermann (University of Wurzburg), M. Rzepka (Bavarian Center for Applied Energy Research), G. Reichenauer (University of Wurzburg), R. Brandt, E. Bauer (Bavarian Center for Applied Energy Research), R. Strobel (Center for Solar Energy and Hydrogen Research Baden-Wurttemberg), P. Lamp (Bavarian Center for Applied Energy Research), and J. Fricke (University of Wurzburg) PDF
4:30995 ESR Evidence for the Presence of Two Kinds of Lithium Intercalation Sites in Carbons - L. Zhuang and J. Lu (Wuhan University) PDF