2001 Joint International Meeting - the 200th Meeting of The Electrochemical Society, Inc. and the 52nd Annual Meeting of the International Society of Electrochemistry - San Francisco, California

September 2-7, 2001


M1 - Seventh International Symposium on Diamond Materials

ECS Cosponsors - Dielectric Science and Technology/High Temperature Materials/Electronics/European Diamond Committee/Japan New Diamond Forum

Monday, September 3, 2001

Franciscan Room B, Ballroom Level

Diamond Electrodes and The Environment

Co-Chair: J.C. Angus

10:40 Opening Remarks Greg Swain
10:451322 Electrochemical Oxidation of Phenol Using Boron-Doped Diamond Electrodes - W. O'Grady, P. Natishan (Naval Research Laboratory), B. Stoner (Univ of North Carolina), and P. Hagans (International Fuel Cells) PDF
11:051323 Loop-Controlled Chlorine Production for Disinfection of Pool-Water using Boron-Doped Diamond Electrodes - W. Haenni, A. Perret, L. Pupunat, J. Gobet, P. Rychen (Swiss Center of Electronic and Microtechnology SA), and C. Comninellis (Swiss Federal Institute of Technology-Lausanne (EPFL)) PDF
11:251324 Potentiodinamic Behavior of the Boron-doped Diamond Electrodes in Na2SO4 with pH 2 to 12 - L. Silva (Universidade de Sao Paulo), E. Corat (Instituto de Pesquisas Espaciais), K. Iha (Instituto Tecnologico de Aeronautica), and P. Sumodjo (Universidade de Sao Paulo) PDF
11:451325 The Use Of Diamond Electrodes For The Analytical Determination Of Pentachlorophenol In Waters - L.A. Avaca, L. Codognoto, and S.A.S. Machado (Universidade de Sao Paulo) PDF

Structure-Reactivity Studies of Diamond Electrodes

Co-Chairs: L.A. Avaca and A. Fujishima

2:001326 Effects of Crystal Structure on the Electrochemical Behavior of Boron-doped HTHP Diamond Electrodes - Y. Pleskov, M.D. Krotova, Y.E. Evstefeeva (Frumkin Institute of Electrochemistry), V.A. Laptev (All-Russian Research Institute for Synthesis of Mineral Raw Materials), Y.N. Palyanov, and Y.M. Borzdov (Russian Academy of Sciences) PDF
2:301327 The Influence of Surface Termination on the Electrochemical Properties of Boron Doped Semiconducting Diamond Electrodes - J. Riley, M. Alexander, M. Latto, and G. Pastor-Moreno (University of Bristol) PDF
2:501328 In Situ Infrared Measurements of a Diamond Electrochemical Electrode During Polarization - H.B. Martin (University of North Carolina at Chapel Hill) and P.W. Morrison, Jr. (Case Western Reserve University) PDF
3:101329 Votammetric Studies of Diamond Film Electrodes in 0.5 M H2SO4 Water- Ethanol Solutions - M.C. Ribeiro (Universidade de Sao Paulo), L.L. Silva, E.J. Corat (Instituto de Pesquisas Espaciais), and P.T.A. Sumodjo (Universidade de Sao Paulo) PDF
3:30 Ten-Minute Intermission
3:401330 Investigations of the Role of Surface Composition in Controlling the Performance of CVD Diamond Electrodes - J. Foord, K. Holt, A. Chatterjee, K. Goeitng, R. Compton (University of Oxford), and F. Marken (Loughborough University) PDF
4:001331 Diamond Electrodes in Molten Salts: Thoery, Experiment, and Application - I.A. Novoselova, S.V. Volkov, and T.A. Nachlnaya (Institute of General and Inorganic Materials) PDF
4:201332 Electrochemistry of taC:N Films Prepared By a Single Arc Method - Q. Shi, N. Yee, D. Scherson, and B. Miller (Case Western Reserve University) PDF
4:401333 Preparation of Boron-doped Diamond Thin Films Using BF3 and the Electrochemical Behavior of the Semiconducting Diamond Electrodes - F. Okino, Y. Kawaguchi, S. Kawasaki, H. Touhara (Shinshu University), M. Nishitani-Gamo (Tsukuba University), and T. Ando (National Institute for Research in Inorganic Materials) PDF
5:001334 Optically Transparent Diamond Electrodes for Chemical Analysis - J. Zak (Silesian Technical University), J. Stotter, S. Haymond (Michigan State University), J. Butler (Naval Research Laboratory), and G. Swain (Michigan State University) PDF

Tuesday, September 4, 2001

Modified Diamond Electrode Surfaces

Co-Chairs: B. Miller and J. Foord

8:301335 Electroanalytical Applications of Bare and Modified Diamond Electrodes - A. Fujishima (The University of Tokyo) PDF
9:001336 Electrochemistry on Sulfur-treated Diamond - S. Eaton (Case Western Reserve University), Y. Evstefeeva, Y. Pleskov (Frumkin Institute of Electrochemistry), and J. Angus (Case Western Reserve University) PDF
9:201337 Nanoparticles of IrO2 on Synthetic Boron-Doped Diamond Surface - I. Duo, C. Comninellis (Swiss Federal Institute of Technology), W. Haenni, and A. Perret (Swiss Centre for Electronics and Microtechnology S.A.) PDF
9:401338 Deposition of taC and taC:N Films by a Single Filtered Cathodic Vacuum Arc Source for Use as a Novel Electrode Material - N. Yee, Q. Shi, W.-B. Cai, B. Miller, and D. Scherson (Case Western Reserve University) PDF
10:001339 Electrocatalytic Diamond Thin Film Electrodes with Incorporated Pt - J. Wang, G. Swain (Michigan State University), T. Tachibana, and K. Kobashi (Osaka University) PDF
10:20 Twenty-Minute Intermission

Electrosynthesis, Plasma Diagnostics and Nanocrystalline Diamonds

Co-Chairs: B. Miller and J. Foord

10:401340 Electrochemical Reduction of Formaldehyde to Ethelyne Glycol at Modified Graphite Electrodes - F. Regisser (Universite du Quebec a Montreal), G. Swain (Michigan State University), and D. Belanger (Universite du Quebec a Montreal) PDF
11:001341 Diagnostics and Modeling of Diamond Deposition Plasmas Discharges Under Pulsed Model - L. Guillaume, D. Xavier, H. Khaled, and G. Alix (Universite Paris 13) PDF
11:201342 Recent Developments in the Characterization and Application of Ultrananocrystalline Diamond Films - D.M. Gruen (Argonne National Laboratory) PDF

Growth Mechanisms, Doping and Electronic Properties

Co-Chairs: J.L. Davidson and W.D. Brown

2:001343 Diamond Crystallites Induced by Ion Beams - I. Bello (City University of Hong Kong), Q. Li (Northwestern University), and S.-T. Lee (City University of Hong Kong) PDF
2:301344 Hydrogen Trapping and Stability at the Polycrystalline CVD Diamond Surface and in the Subsurface Layers - D. Ballutaud, F. Jomard (LPSC-CNRS), J. Vigneron, B. Canava (IREM-Lavoisier / UVSQ), C. Mer, and P. Bergonzo (LIST/DIMRI/SIAR/CEA) PDF
2:501345 Effect of Oxidation on Electron Affinity and Surface Potential of the Diamond (001) Surface - M. N.-Gamo (University of Tsukuba), H. Gamo (Toppan Printing Co., Ltd.), and T. Ando (Core Research for Evolutional Science and Technology (CREST) of JST) PDF
3:10 Thirty-Minute Intermission
3:301346 The Effect of H2S on Diamond Homoepitaxy - T. Ando (CREST), M.N. Gamo (University of Tsukuba), C. Xiao, K.P. Khoo, Y. Zhang (CREST), and R. Urao (Ibaraki University) PDF
4:001347 Dopants in Diamond Nanoparticles and Bulk. Density Functional Study of Substitutional B, N, P, SB, S, PN, O, NN, and Interstitial H - T. Albu (University of Minnesota), A. Anderson, and J. Angus (Case Western Reserve University) PDF
4:20 Ten-Minute Intermission
4:30 Open Discussion

Continental Ballrooms 4,5,6, Ballroom Level

Poster Session

Co-Chairs: G.M. Swain and J.C. Angus

o1348 Microwave-CVD Diamond Protective Coating For 3D Structured Silicon Microsensors - H. Kovach Csorbai (Hungarian Academy of Sciences), C. Ducso, I. Barsony (Research Inst. for Technical Physics and Materials Science), G. Hars (Budapest University of Technology and Economics), E. Kalman (Bay Zoltán Foundation for Applied Research), and P. Deak (Research Inst. for Technical Physics and Materials Science) PDF
o1349 Study of Radiation-Response Properties of Natural and Synthetic Type IIa Diamond Detectors - N.B. Zaletaev (ORION Research, Development, and Production Center), A.G. Alekseyev, V.N. Amosov (Troitsk Institute for Innovation and Fusion Research), and B.N. Feigelson (Naval Research Laboratory) PDF
o1350 Charge Sensitive Deep Level Transient Spectroscopy of Mono- and Polycrystalline Diamonds - V. Polyakov, A. Rukovishnikov, N. Rossukanyi (Institute of Radio Eng. & Electronics), V. Varnin, I. Teremetskaya (Institute of Physical Chemistry), V. Laptev (All-Russia Institute for the Synthesis of Minerals), and V. Ralchenko (General Physics Institute) PDF
o1351 Polarization Dependence of SFG spectra of H/C(100) Surface - A. Wada, H. Takaba (Tokyo Institute of Technology), T. Ando, M. Gamo, Y. Sato (National Institute for Research in Inorganic Materials), and C. Hirose (Tokyo Institute of Technology) PDF
o1352 Electrochemical Oxidation of Alkylphenols at ECR-sputtered Carbon Film Electrode with Sub-nanometer Flat Surface - T. You, O. Niwa, K. Hayashi, T. Ichino (NTT Lifestyle and Environmental Technology), R. Kurita (NTT Advanced Technology), and S. Hirono (NTT Afty Corporation) PDF

Wednesday, September 5, 2001

Franciscan Room D, Ballroom Level


Co-Chair: T. Ando

8:301353 CVD Diamond for High Power and High Temperature Electronics - S. Heidger, N. Baraty, and J. Weimer (U.S. Air Force) PDF
8:501354 Some Practical Examples of Diamond Microelectromechanical Structures (DMEMS) - J. Davidson, W.P. Kang, T. Fisher, K. Holmes, A. Wisitsora-at, and M. Howell (Vanderbilt University) PDF
9:101355 Microwave Plasma CVD of Diamond Films for MEMS Applications - B. Brown (University of Arkansas), A.A. Shaik (High Density Electronics Center), H.A. Naseem, and S.S. Ang (University of Arkansas) PDF
9:301356 High Pressure-High Temperature Device for Making Diamond Materials - O. Voronov, G. Tompa (Diamond Materials Inc.), and B. Kear (Rutgers University) PDF
9:501357 Chemical Vapor Infiltration of TiN Into a CbN Matrix for a Composite cBN-TiN Coating: Advanced Materials and Processes - B. Brown (University of Arkansas), W.C. Russell (Valenite Inc), S.N. Yedave, and A.P. Malshe (University of Arkansas) PDF
10:101358 Highly Efficient Field Emitter Using Carbon Nanotubes Grown By Microwave Plasma Enhanced CVD - Y.M. Wong, W.P. Kang, J.L. Davidson, A. Wisitsora-at, and K.L. Soh (Vanderbilt University) PDF

Copyright 1995 The Electrochemical Society, Inc.