FINAL PROGRAM
|
|
|
Projectors
for slides, viewgraphs, and PowerPoint presentations are provided. A
laptop computer with window 98 OS and both CD and Zip 250M drives is
also provided in the Auditorium where all the oral presentations are
to be given. Similar equipment will also be available in the author
preparation room (Meeting Room H).
|
Session
6: Carbon Electron Emitters
CHAIRS: J. Pazik and T. Cagin
10:30-10:55
6.1 Fundamental
Properties of Nanotube Field Emitters for Large Area Electron Sources
Kenneth A. Dean, Babu R. Chalamala, Bernard F. Coll, A. Alec Talin, Yi
Wei, and James E. Jaskie, Motorola, Inc., USA
10:55-11:20
6.2 Enhanced
Field Emission from Nanostructured Carbon Films
Igor Pavlovsky,
R.L. Fink, L.F. Thuesen, Zvi Yaniv
Field Emission
Picture Element Technology, Inc., USA
Robert Espinosa,
Microwave Power Technology, USA
11:20-11:45
6.3 Electron
Emission from Diamond
Lothar Ley, Jing-biao Cui, Juergen Ristein, and Markus
Stammler
University of Erlangen,
Germany
11:45-12:10
6.4
Thermionic
Emission of Carbon/Diamond Surfaces at Low Temperature
R. J. Nemanich,
F. A. M. Köck, and J. M. Garguilo
North
Carolina State University, USA
12:10-14:00
Break and Posters
Session
7: Carbon Nanotube and Diamond Electron Field Emitters
CHAIRS: R. J. Nemanich and S. Arepalli
14:00-14:25
7.1 Computational
Studies on Formation And Properties of Carbon Nanotubes
Tahir
Cagin, Jianwei Che, Weiqiao Deng, Xin Xu, William A Goddard, III
California Institute
of Technology, USA
14:25-14:50
7.2 Growth
of Carbon Nanotubes on Patterned Catalysts: Towards a Carbon Nanotechnology
G. A. J. Amaratunga , M. Chhowalla, K. Teo, C. Ducati, I. Alexandrou, N.
L. Rupesinghe, A. Ferrari, W. I. Milne and J. Roberstson, D. Roy and T. W.
Clyne,
D. Hasko, Cambridge University, UK.
A. J. Papworth and C. J Kiely, University of Liverpool, UK.
14:50-15:15
7.3 Fabrication
and Behavior of Diamond Field Emitter Triode Utilizing Silicon-on-Insulator
(SOI) MEMS Technology And CVD
W. P. Kang, A. Wisitsora-at, and J. L. Davidson, Vanderbilt University,
USA
D. V. Kerns, Olin College of Engineering, USA
15:15-15:40
7.4 Electron
Field Emission Properties of Nano-diamonds Synthesized by Chemical Vapor Deposition
Process
I-Nan Lina, Gia-Ming Lin, and Tong Hsu
National Tsing-Hua University, Taiwan
15:40-16:10
Break
Session
8: Applications of Carbon Nanotubes
CHAIRS: J. Han and Y. H. Lee
16:10-16:35
8.1 Lithium
Storage in Nanomaterials
O. Zhou, U.
of North Carolina, USA
16:35-17:00
8.2 High-Pressure
Polymerization of Single Wall Carbon Nanotubes
M. Popov, M.
Kyotani and Y. Koga, JFCC, Japan.
R. J. Nemanich,
North Carolina State University, USA.
17:00-17:25
8.3 Carbon
Nanotube/Fe3O4-Based Electromagnetic Polystyrene
P.C.P. Watts,
W.K. Hsu, H.W. Kroto, D.R.M. Walton
University of Sussex,
UK
17:25-17:50
8.4 Magnetic
Coupling of Carbon Nanotubes
Trinh Vo, Tai-Chou
Lee, Behnaz Payandeh, Rice University, USA
Marc Robert, Rice
University, USA
17:50-21:00
Break and Posters
WEDNESDAY,
AUGUST 8, 2001
Session 9: Chemical and Biological Applications of Diamond and Carbon Nanotubes
CHAIRS: J. E. Butler and K. Kobashi
8:00-8:25
9.1 Electrochemical
Properties of Sulfur-Treated Diamond
Sally C. Eaton,
Alfred B. Anderson, John C. Angus
Case Western Reserve
University, USA
Yulia E. Evstefeeva, Yuri V. Pleskov, Frumkin Institute of Electrochemistry,
Russia
8:25-8:50
9.2 Conductive
Diamond: A Unique Electrode Material for Analytical Applications
Akira Fujishima,
The University of Tokyo, Japan
8:50-9:15
9.3 Advanced
Electrochemistry with DiaChemÒ Electrodes
Lothar Schäfer,
Matthias Fryda, Dennie Herrmann, Inga Tröster
Fraunhofer Institute
for Surface Engineering and Thin Films, Germany
Werner Hänni, André
Perret
Centre Suisse d´Electronique
et de Microtechnique, Switzerland
9:15-9:40
9.4 Carbon
Nanotube Biosensors for Space Molecule Detection And Clinical Molecular Diagnostics
Jie Han, NASA
Ames Research Center, USA
9:40-10:05
9.5 Covalent
Sidewall Chemistry of Carbon Nanotubes
John. L. Margrave, Robert H. Hauge, Valery N. Khabashesku, Ivana Chiang,
Zhenning Gu, and Haiqing Peng, Rice University, USA.
10:05-10:30
Break
Session
10: Diamond and Cubic Boron Nitride Machining Tools
CHAIRS: D. Paulmier and S. Matsumoto
10:30-10:55
10.1 State-Of-The-Art
And Future Trends for CVD-Diamond Coated Tools for Cutting Operations
O. Lemmer,
D. Breidt, M. Frank, Dr. T. Leyendecker
CemeCon GmbH, Germany
10:55-11:20
10.2 Ultrasonic
End Milling of Hard Ferrous Materials by Use of Diamond Tool
Masao Murakawa,
Hiroyuki Noguchi and Masahiko Jin
Nippon Institute
of Technology, Japan
11:20-11:45
10.3 Some
Properties And Cutting Performance of Polycrystalline Cubic Boron Nitride
Without Additives
Tadakazu Ohashi, Hidetoshi Nakajima, Yoichi Hamada, Katsuyoshi Omino and Kazuo
Yamamoto
Mitsubishi Materials Corporation, Japan
11:45-12:10
10.4 Cubic
Boron Nitride Composite Coating for Advanced Machining Application
Ajay
P. Malshe1,*, S.N. Yedave1, W.D. Brown1 and
William Russell2
1University
of Arkansas, USA
2Valenite
Inc., USA
12:10-14:00
Break
and Posters
Session
11: Tribological Applications of Carbon
Materials
CHAIRS: K. Miyoshi and J. Larsen-Basse
11.1
Superlow-Friction
Carbon Films from Hydrogen-Rich Hydrocarbon Plasmas
Ali Erdemir,
Argonne National Laboratory, USA
14:25-14:50
11.2 An Investigation
of Si-DLC Film Structure And Chemistry Relationships to Deposition Process
Conditions And Mechanical Properties
Ryan D. Evans,
Jeffrey T. Glass, Philip W. Morrison, Jr.
Case Western Reserve
University, USA
Gary L. Doll, The
Timken Company, USA
14:50-15:15
11.3 Solid
Lubricant Properties of Carbon Onions Prepared from Diamond Clusters And Particles
Atsushi HIRATA, Masaki IGARASHI and Takahiro KAITO
Tokyo Institute of Technology, JAPAN
15:15-15:45
Break
Session
12: Diamond Optics
CHAIRS: T. Shibata and K. Y. Eun
12.1 Far
Infrared CVD Diamond Optics: Properties and Applications
T P Mollart
and K L Lewis, Defence Research and Evaluation Agency, UK
16:10-16:35
12.2 Extreme-UV
Response of Diamond Detectors
A Pini1, A Desio1, E Pace1, K kobashi2 and R S Sussmann3
1: XUV Laboratory, Department of Astronomy and Space Science, Universita degli
Studi di Firenze, 2: Kobe Steel, 3: King's College London
16:35-17:00
12.3 Diamond
Thin-Film Fabry-Perot Optical Resonators
R. A. Booth
and D. K. Reinhard, Michigan State University, USA
17:30-19:30
BBQ
19:30-21:00
Break
CHAIRS: Y. K. Vohra and L. Schaefer
8:00-8:25
13.1 High-Temperature
Annealing of Colour Centres in Diamond
Alan T Collins, King’s College London, UK
8:25-8:50
13.2 Defect
Aggregation And Dissociation in Diamonds During Annealing under HPHT Conditions
Filip De Weerdt,
Hoge Raad voor Diamant (Diamond High
Council), Belgium
8:50-9:15
13.3 Origin,
Evaluation and Some Problems of Diamond CVD
B.V.Spitsyn and A.E.Alexenko, Institute of Physical
Chemistry RAS, Russia
9:15-9:40
Session
14: CVD of Diamond
CHAIRS: B. Spitsyn and K. Komaki
14.1 Homoepitaxial
Diamond Growth at High And Low Temperature: Designer Diamonds to Large Crystals
Yogesh K. Vohra, University of Alabama at Birmingham (UAB), USA
10:35-11:00
14.2 Numerical
Simulation And Realization of NOVEL Microwave Plasma Reactors for Diamond
CVD
C. Wild, E. Pleuler, W. Müller-Sebert, P. Koidl, Fraunhofer-Institut für
Angewandte Festkörperphysik, Germany
11:00-11:25
D. Paulmier and M. Schmitt, LPMM-ERMES, France
M. Mermoux, Domaine universitaire, France
11:25-13:00
Break and
Posters
Session
15: Novel Nanotube Related Materials and Structures
CHAIRS: S. Iijima and G. A. J. Amaratunga
15.1 Carbon
Nanotubes for Large-Area Field Emission Displays
J.M. Kim1,2,3, N.S. Lee1, and J.H. You2
1FED Team, Samsung Advanced Institute of Technology, Korea
2FED Team, CRD, Samsung SDI, Korea
1FED Team, Samsung Advanced Institute of Technology
3The National Creative Research Initiatives Center for Electron
Emission Source
Samsung Advanced Institute of Technology, Korea
13:25-13:50
15.2 Nanomachined
Carbon: Nanotubes, Fullerenes, Peapods
David Tománek,
Michigan State University, USA
13:50-14:15
15.3 Working
Toward Nanotube Composites
Sivaram Arepalli,
Pavel Nikolaev, and Olga Gorelik
GB Tech/NASA Johnson
Space Center, USA
Victor G. Hadjiev,
University of Houston, USA
Carl D. Scott and
Bradley S. Files, NASA Johnson Space Center, USA
14:15-14:40
15.4 Composite
Materials from Modified Carbon Nanotubes
Rodney Andrews,
Terry Rantell, University of Kentucky, USA
Robert C. Haddon,
University of California, USA
Elizabeth C. Dickey,
University of Kentucky, USA
Robert G. Bergosh,
Hui Hu, Chad Landis, and Mark S. Meier,
University of Kentucky,
USA
14:40-15:10
Break
Session
16: Cubic Boron Nitride
CHAIRS: M. Murakawa and J. Vlcek
16.1 Synthesis
of cBN Films by Plasma Jet CVD in An Ar-N2-BF3-H2 Gas System
S. Matsumoto, W.J. Zhang and J. Yu
National Institute for Research in Inorganic Materials, Japan
15:35-16:00
16.2 Ion
Beam Deposition of Cubic Boron Nitride
C. Ronning,
University of Göttingen, Germany
16:00-16:25
16.3 Electron
Field Emission of Cubic Boron Nitride Thin Films
P. A. Encarnación,
Y. Sheng, A. Daniel, and R. Clarke, The University of Michigan, USA
16:25-18:30
Break
18:30-21:00
Banquet
Speech by
Prof. Iijima, NEC and Meijyo
University, Japan
FRIDAY,
AUGUST 10, 2001
Session
17: Diamond Electronics and MEMS
CHAIRS: J. Zabinski and T. Imai
8:00-8:25
17.1 HOD
Thin Films for Silicon on Insulator Technology
S.D. Wolter,
F. Okuzumi, K. M. Lee, N. Govindaraju, and Z. Sitar
North Carolina
State University, USA
J.T. Prater, Army
Research Office, USA
8:25-8:50
17.2 Diamond
MEMS – From Proof-of-Concept to Application
E. Kohn, M. Adamschik, P. Schmid, S. Ertl, University of Ulm, Germany
8:50-9:15
17.3 Micromachining
of CVD Diamond for MEMS Applications
Takayuki Shibata,
Hokkaido University, Japan
Break
Session
18: Diamond and Carbides
CHAIRS: E. Kohn and R. L. C. Wu
18.1 Diamond
(Heteroepitaxial) Nucleation by Ion Beam Impact: A Reality
S. T. Lee,
I. Bello, and C. S. Lee, City University of Hong Kong, China
10:10-10:35
18.2 HRTEM
Study of The Early Stages of Diamond Nucleation on Si(111) Dimples
J.C. ARNAULT, S. PECORARO, J. WERCKMANN and F.
LE NORMAND
Institut de Physique et Chimie de Strasbourg, France
N. MOTTA
and R. POLINI, Universita Tor Vergata, ITALY
10:35-11:00
18.3 Electrical
Properties of Boron-Doped Diamond Films Grown by Bias Method
S.Yugo,T.Tashiro
and D.Saito, University of Electric-Communications, Japan
11:00-11:25
18.4 Improved
Inversion Channel Mobility for 4H-SiC MOSFETs Following High Temperature Anneals
in Nitric Oxide
G.Y. Chung a), C. C. Tin a), J.R. Williams a),
K. McDonald b), R.K. Chanana b), R.A. Weller c),
S.T. Pantelides b), L.C. Feldman b), O.W. Holland e),
M.K. Das e) and J.W. Palmour e)
a)
Physics Department, Auburn University USA
b)
Department of Physics and Astronomy, Vanderbilt University, USA
c) Department of Electrical
Engineering and Computer Science, Vanderbilt University, USA
d) Solid State Division, Oak Ridge National Laboratory, USA
e) Cree Research Inc.,
USA
11:25-11:50
18.5 Size
Control of Carbon Nanotubes by Surface Decomposition of SiC
M. Kusunoki, T. Suzuki, C. Honjo, T. Hirayama and N. Shibata
Japan Fine
Ceramics Center / FCT, Japan
11:50-12:15
18.6 Electromagnetically
Accelerated Plasma Spraying for Boron Carbide Coating
Junya Kitamura, National Institute of Materials and Chemical Research, Japan
Shu Usuba, Yozo Kakudate, Hiroyuki Yokoi, Kazuhiro Yamamoto, and Shuzo Fujiwara
National Institute of Materials and Chemical Research, Japan
12:15-13:30
Break
Session
19: Late News Papers
CHAIRS: Y. Tzeng and Y. Koga
13:30-13:55
19.1 Diffusion
of Boron into Polycrystalline Diamond Films Using the Electric Field Enhanced
Diffusion (EFED) Technique
University of Missouri-Columbia, USA.
13:55-14:20
19.2 Charge
Carriers Removal from 4H-SIC Using Field Enhanced Diffusion by Optical Activation
Method
University of Missouri
- Columbia, USA.
14:20-14:45
19.3 Computer
Simulation of Large Area Diamond Deposition by DC Arc Jet with Arc Roots Rotating
And Operating at Gas Recycling Mode
F.X. Lu, T.B. Huang, W.Z. Tang, J.H. Song, Y.M. Tong
University of Science and Technology Beijing, P.R. China
|
Poster
Boards Are 4 ft High by 8 ft Wide.
Posters and Exhibits are to be presented in the Ballroom A. |
MONDAY,
AUGUST 6, 2001
Session 20: Monday Posters
CHAIRS: H. Kirkici and J. Williams
20.2 Characterization
of AlN And LiNbO3 Thin Films Deposited on Diamond Substrates
Masatou Ishihara, Takako Nakamura and Yoshinori Koga, National Institute of Advanced Industrial Science
and Technology (AIST), Japan
Fumio Kokai, AIST, Japan
20.3 Polycrystalline
Diamond Films for High-Temperature Electronics And MEMS
R. Ramamurti,
V. Shanov, and R. N. Singh, University of Cincinnati, USA
M. Samiee and P.
Kosel, University of Cincinnati, USA
20.4 Diamond
Membrane Electron Multiplier
Nick N. Dzbanovsky, Pavel Minakov,
Nikolay V. Suetin,
Moscow State University, Russia
Eugeni A. Poltoratsky, Gennady S. Richkov , Eugeny A. Il’ichev, Sergey A.
Zelenograd’s Physical Problems Institute, Russia.
20.5 Novel
Electronic Devices Using Diamond Thin Films