203rd Meeting - Paris, France
April 27-May 2, 2003
PROGRAM INFORMATION
G2 - Eighth International Symposium on Diamond Materials
Dielectric Science and Technology/Electronics/High Temperature Materials
Monday, April 28, 2003
Room 242A, Level 2, Le Palais des Congres
Patterned Growth and Devices
Co-Chair: R. Kalish
Time | Abs# | Title |
10:20 | 507 |
Nano-Diamond Materials for Diverse Applications: MEMS, NEMS, Single Particle Detectors, e-beam windows, and More - J. Butler (Naval Research Laboratory) |
10:45 | 508 |
Diamond Vacuum Field Emission Devices - W.P. Kang, J. Davidson, A. Jamaluddin, and Y. Wong (Vanderbilt University) |
11:05 | 509 |
Arrays of Novel Single Crystal Diamond Cones - Y. Wu, W. Zhang, C.Y. Chan, X.M. Meng, W.K. Wong, I. Bello, and S.-T. Lee (City University of Hong Kong) |
11:25 | 510 |
Carbon Nanotube Emitters Grown by Low-Temperature CVD for FED Application - J.-H. Huang, C.-C. Chuang, and S.-P. Chen (National Tsing Hua University) |
11:45 | 511 |
Fabrication of Smooth Low Stress Amorphous Carbon Micro-Stuctures by Photolithography and Wet KOH Etching - S. Divakaran, B.K. Tay, L. Yu, S.P. Lau (Nanyang Technological University), H.C. Chua, and W.I. Milne (University of Cambridge) |
Nanocrystalline Materials, Doping, and Growth
Co-Chairs: W.P. Kang and G.M. Swain
Time | Abs# | Title |
13:30 | 512 |
What's So Special About Ultrananocrystalline Diamond? - D. Gruen (Argonne National Laboratory) |
13:55 | 513 |
Study Of The Microwave Discharge Used For Nanocrystalline Diamond Films Deposition - F. Mohasseb, G. Lombardi, F. Benedic, K. Hassouni, F. Silva, and A. Gicquel (Universite Paris 13) |
14:15 | 514 |
Growth of Ultrananocrystalline Diamond films via DC Arcjet CVD - J. Smith, E. Crichton, A. Smith, P. May, and M. Ashfold (University of Bristol) |
14:35 | 515 |
Investigation of the Scaling and Control of Microwave Discharges for Diamond Deposition on Substrates of Various Sizes and Shapes - T. Grotjohn, J. Asmussen, G. Swain, S. Zuo (Michigan State University), and A. Vikharev (Russian Academy of Sciences) |
14:55 | 516 |
Influence of the Silicon Surface Treatment by Plasma Etching and Scratching on the Nucleation of Diamond Grown in HFCVD – A Comparative Study - S. Ansari, H.-K. Seo, G.-S. Kim, and H.-S. Shin (Chonbuk National University) |
15:15 | 517 |
Single-Cathode DC PACVD Process for Large-Area CVD Diamond Wafer Fabrication - W.-S. Lee, Y.-J. Baik (Korea Institute of Science and Technology), and K.-W. Chae (Precision Diamond Tech. Inc.) |
15:35 | |
Fifteen-Minute Intermission |
15:50 | 518 |
Low Temperature Synthesis of Sulfur-Doped Nanocrystalline Diamond Films - H. Gamo (Toppan Printing Co. Ltd.), M. Nishitani-Gamo (University of Tsukuba), K. Nakagawa (NIMS), S. Takeuchi (NIT), and T. Ando (NIMS) |
16:10 | 519 |
Co-doping of CVD Diamond with Boron and Sulfur - S. Eaton, A. Anderson, and J. Angus (Case Western Reserve University) |
16:30 | 520 |
n-type Diamond - Experimental Findings and Theoretical Predictions - R. Kalish and C. Uzan-Saguy (Technion) |
16:50 | 521 |
Roles of Interstitial Hydrogen and Substitutional Boron During H2 Evolution on Diamond Electrodes. Model DFT Calculations - L. Kostadinov (Bulgarian Academy of Sciences), A. Anderson, and J. Angus (Case Western Reserve University) |
17:10 | 522 |
(Amorphous Carbon)-(Diamond) Electronic Microstructures Made by Fine Focus Ion Implantation - I. Dobrinets, A. Zaitsev (Ruhr-University of Bochum), N. Poklonsky (Belarussian State University), and A. Wieck (Ruhr-University of Bochum) |
17:30 | 523 |
Early Stages of Diamond Ben-HFCVD on Iridium Buffer Layers - J.-C. Arnault, F. Vonau (Institut de Physique et Chimie de Strasbourg), J. Arabski, G. Schmerber (UMR 7504), M. Mermoux (Domaine Universitaire), F. Wyczisk, and P. Legagneux (Thales R and T) |
Tuesday, April 29, 2003
Electroanalysis
Co-Chairs: H.B. Martin and M. Fryda
Time | Abs# | Title |
8:00 | 524 |
Electrochemical Behavior of Boron-Doped Diamond Films on Metal Substrates - W. O'Grady (Naval Research Laboratory), G. Cheek (US Naval Academy), H. Martin (Case Western Reserve University), F. Martin (Geo-Centers), and P. Natishan (Naval Research Laboratory) |
8:20 | 525 |
Electrochemical Advanced Oxidation Process for Water Treatment - M. Fryda, T. Matthee, S. Mulcahy (CONDIAS GmbH), L. Schafer, M. Hofer, and I. Troster (Fraunhofer Institut fur Schicht- und Oberflachentechnik) |
8:40 | 526 |
Electrochemical Properties of Sputter Deposited Diamond-like Carbon Film and Graphite-Like Carbon Film Electrodes Containing Metalnano-Particles - N. Osamu, Y. Tianyan, H. Katsuyoshi, T. Masato (NTT Corporation), and H. Shigeru (NTT Afty Corporation) |
9:00 | 527 |
Vacuum-Annealed Undoped Polycrystalline CVD Diamond: A New Electrode Material - Y. Pleskov, M. Krotova (Frumkin Institute of Electrochemistry), V. Ralchenko (General Physics Institute), A. Khomich (Institute of Radio Engineering and Electronics), and R. Khmelnitskiy (Lebedev Physical Institute) |
9:20 | 528 |
Recent Progress in Understanding the Electrochemical Behavior of the Oxidized Boron-Doped Diamond Surface - D. Tryk, H. Tachibana, H. Inoue (Tokyo Metropolitan University), T. Kondo, K. Honda, and A. Fujishima (University of Tokyo) |
9:40 | 529 |
Electrochemical Water Treatment with Boron-Doped Diamond Electrodes - L. Pupunat, P. Rychen, W. Haenni, and E. Santoli (Centre Suisse d'Electronique et de Microtechnique SA) |
10:00 | |
Twenty-Minute Intermission |
10:20 | 530 |
Diamond Microelectrodes for Catecholamine Neurotransmitter Detection - H. Martin, B. Blankenship (Case Western Reserve University), J. Venton (University of North Carolina at Chapel Hill), J. Angus (Case Western Reserve University), and M. Wightman (University of North Carolina at Chapel Hill) |
10:40 | 531 |
Mechanism of Electrochemical Reduction of Nitrate at Boron-Doped Diamond Electrodes - C. Levy-Clement (CNRS), A. Manzo-Robledo (University of Poitiers), A. Katty, A. Deneuville (CNRS), A. Fujishima (University of Tokyo), and N. Alonso-Vante (University of Poitiers) |
11:00 | 532 |
B and N Codoped Diamond Films: An Extension of the Work Potential Window - L.L. Goncalves da Silva (Universidade de Sao Paulo), E.J. Corat (Instituto Nacional de Pesquisas Espaciais), and P.T.A. Sumodjo (Universidade de Sao Paulo) |
11:20 | 533 |
Nitrate Reduction on Hydrogenated Nitrogen Carbon Films. Cations Effect - H. Cachet, C. Deslouis, A. Lagrini (Univ. P6,), and B. Saidani (Universite A. Mira) |
11:40 | 534 |
Electrochemical Behavior of Semiconductive Diamond Single Crystals in Aqueous Solutions - I. Novoselova, E. Fedoryshena, E. Panov, N. Olijnyk, S. Ivakhnenko, O. Zanevskiy, and T. Nachalnaya (National Academy of Sciences) |
Conductivity, Surface Modification, and Characterization
Co-Chairs: A. Gicquel and J.E. Butler
Time | Abs# | Title |
13:30 | 535 |
The Incorporation and Properties of Hydrogen in Single Crystal CVD Diamond - M. Newton and C. Glover (University of Warwick) |
13:55 | 536 |
Electrochemical Surface Transfer Doping: The Mechanism behind the Surface Conductivity of Hydrogen Terminated Diamond - J. Ristein, M. Riedel, and L. Ley (Universitaet Erlangen-Nuernberg) |
14:15 | 537 |
Studies of the Conductivity of Diamond Surfaces - V. Chakrapani, S. Eaton, and J. Angus (Case Western Reserve University) |
14:35 | 538 |
Chemical and Biochemical Modification of Nanocrystalline Diamond Surfaces - R. Hamers (University of Wisconsin-Madison) |
14:55 | 539 |
Chemically Modified Diamond Surfaces for Chemical Sensor Application - H. Umezawa and H. Kawarada (Waseda University) |
15:15 | 540 |
Structure and Property Control of Cluster Diamond by Fluorination - H. Touhara, T. Ohi, A. Yonemoto, S. Kawasaki, and F. Okino (Shinshu University) |
15:35 | |
Fifteen-Minute Intermission |
15:50 | 541 |
A Confocal Raman Imaging Study of Optically Transparent Boron-Doped Diamond Films - M. Michel, M. Bernadette, C. Alexandre (Domaine Universitaire), S. Greg M. (Michigan State University), and B. James E. (Naval Research Laboratory) |
16:10 | 542 |
Resonant Raman Scattering Studies of Boron Doped Diamond - S.P. Lau, Y.G. Wong, B.K. Tay (Nanyang Technological University), and X.H. Zhang (Institute of Materials Research and Engineering) |
16:30 | 543 |
AFM Studies of Polished Surfaces of CVD Diamond Films - V. Ralchenko (Russian Academy of Sciences), M. Salermo, A. Podesta, P. Milani (Universita di Milano), and I. Vlasov (Russian Academy of Sciences) |
16:50 | 544 |
Thermal Stability and Sp2 Clustering in Tetrahedral Amorphous Carbon: A Raman and Atomic Force Microscopy Study - I. Andrienko, S. Prawer (University of Melbourne), and J. Orwa (University of Surrey) |
17:10 | 545 |
Controlling Stress Gradients and Fracture Resistance in CVD Diamond and other Materials for MEMS Applications - B. Sheldon, A. Rajamani, Z. Xia, and J. Rankin (Brown University) |
17:30 | 546 |
Modern Thermodynamics for Low-Pressure Diamond and Cubic Boron Nitride Syntheses - J.-T. Wang and D.W. Zhang (Fudan University) |
Hall Maillot, Level 2, Le Palais des Congres
Technical Exhibit and Tuesday Evening Poster Session
Co-Chair: G. M. Swain
Time | Abs# | Title |
o | 547 |
Me-DLC with Self-assembled Layered Nanostructures - W.-Y. Wu and J.-M. Ting (National Cheng Kung University) |
o | 548 |
Electrochemical Behavior of Diamond-Like Carbon Film Electrodes in Aqueous Electrolytes - I. Novoselova, E. Fedoryshena, E. Panov, V. Kulikovsky, and A. Onoprienko (National Academy of Sciences of Ukraine) |
o | 549 |
Synthesis of Large Diamond Crystals for Solid-State Electronics and Diamond Electrodes - N. Novikov, T. Nachalna, S. Ivakhnenko, O. Zanevsky, V. Malogolovets, G. Podzyrey, and L. Romanko (National Academy of Science of Ukraine) |
o | 550 |
Electrochemical Processes at Diamond Composite Electrodes - F. Marken (Loughborough University) |
o | 551 |
Deposition of Diamond-like and Diamond Films by Electrooxidation of Lithium Acetylide - A. Kulak and T. Kulak (National Academy of Sciences of Belarus) |
o | 552 |
Characteristics of Broad-Band Frequency Low Pressure Inductively Coupled Plasma Used for Nanostructured Carbon Deposition - K. Okada, S. Komatsu, and S. Matsumoto (National Institute for Materials Science) |
o | 553 |
Towards The Practical Applications of Cubic Boron Nitride Films - W. Zhang, I. Bello, and S.-T. Lee (City University of Hong Kong) |
o | 554 |
Investigation of Growth Processes and Surface Morphology of Fine Grain Diamond Films Grown by High Repetition Rate Pulsed Laser Deposition (PLD) Technique - A. Tamanyan, G. Tamanyan, I. Andrienko, and S. Prawer (University of Melbourne) |
o | 555 |
Diamond-like Carbon Films and Carbon Nanomaterials Deposition from Organic Liquid Phase - K. Nakagawa (NIMS), M. Nishitani-Gamo (University of Tsukuba), H. Gamo (Toppan Printing Co. Ltd.), and T. Ando (NIMS) |
o | 556 |
Micropatterned CVD Diamond Microelectrode Arrays for Electrochemical Analysis - G. Swain (Michigan State University), W.P. Kang, J. Davidson, K.L. Soh, and Y. Wong (Vanderbilt University) |
o | 557 |
Urea Sensor Used Hydrogen-Terminated Polycrystalline Diamond - K.-S. Song, T. Sakai, H. Kanazawa, H. Umezawa, M. Tachiki, and H. Kawarada (Waseda University) |
o | 558 |
Nanocrystalline Diamond Thin Films for Tools and Other Applications - A. Sikder, Z. Xu, M. Holly, and A. Kumar (University of South Florida) |
o | 559 |
AFM Study of Amorphous Carbon Films - Y.H. Yu (Chinese Academy of Sciences) |
o | 560 |
Analysis of Piezoresistivity in Diamond Films - K.C. Holmes, J.L. Davidson, and W.P.K. Kang (Vanderbilt University) |
o | 561 |
Separation of Bioanalytes and Their Detection Using Electrically Conducting Diamond Electrodes - J. Cvacka, V. Quaiserova, and G. Swain (Michigan State University) |
o | 562 |
Fabrication and Evaluation of Platinum/Diamond Composite Electrodes for Electrocatalysis - J. Wang, J. Bennett, and G. Swain (Michigan State University) |
o | 563 |
Oxidized Diamond as a Novel Catalyst Medium; Dehydrogenation, of Light Alkane using Carbon Dioxide - K. Nakagawa (NIMS), M. Nishitani-Gamo (University of Tsukuba), T. Suzuki, and T. Ando (NIMS) |
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