ADC/FCT 2001


FINAL PROGRAM

To read an abstract, please click the title.
ADC/FCT 2001 Proceedings can be downloaded free of charge at NASA website.


ORAL SESSIONS

MONDAY, AUGUST 6, 2001

Welcome
Session 1: Markets and Technologies of Diamond Materials
Session 2: Mass Production and Applications of Carbon Nanotubes
Session 3: DLC as Dielectrics and for Magnetic Media
Session 4: B-C-N Materials

TUESDAY, AUGUST 7, 2001

Session 5: Review of Research Programs
Session 6: Carbon Electron Emitters
Session 7: Carbon Nanotube and Diamond Electron Field Emitters
Session 8: Applications of Carbon Nanotubes

WEDNESDAY, AUGUST 8, 2001

Session 9: Chemical and Biological  Applications of Diamond and Carbon Nanotubes
Session 10
: Diamond and Cubic Boron Nitride Machining Tools
Session 11: Tribological Applications of Carbon Materials
Session 12: Diamond Optics


THURSDAY, AUGUST 9, 2001

Session 13: HTHP and CVD Diamonds
Session 14: CVD of Diamond
Session 15: Novel Nanotube Related Materials and Structures
Session 16: Cubic Boron Nitride

Banquet: Speech by Prof. S. Iijima

FRIDAY, AUGUST 10, 2001

Session 17: Diamond Electronics and MEMS
Session 18: Diamond and Carbides
Session 19: Late News Papers

Back to top of document

POSTER SESSIONS

Session 20: Monday Posters

Industrial Diamonds
Diamond Electronics and Sensors
Diamond Micro-Electro-Mechanical Systems (MEMS)

Electron Emitters
Diamond Electrodes
Diamond Optics
Diamond Machine Tools
High Pressure High Temperature Diamond Processes
Ultradispersed Diamonds
Diamond  Nucleation
Homoepitaxial Growth of Diamond
Growth and Manufacturing of Diamond-1


Session 2
1: Tuesday Posters

Growth and Manufacturing of Diamond-2
Characterization of Diamonds
Electron Emitters
Protective DLC Films
Wear  and Tribology
Nitrogen-, Silicon-, and Metal-Containing DLC Films
DLC Deposition Processes


Session 22: Wednesday Posters

Cubic Boron Nitride
Carbon Nitride
Silicon Carbide and Boron Carbide
B-C-N Films
Carbon Nanotube Production and Applications
Carbon Nanotube Storage Systems and Capacitors
Processing of Carbon Nanotube
Carbon Nanotube Electron Emitters
Electrical and Electronics of Carbon Nanotube

Mechanical Properties and Applications
Carbon Nanotube Synthesis and Patterning

Back to top of document

PRESENTATION SCHEDULE


ORAL SESSIONS
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).

MONDAY, AUGUST 6, 2001


8:00-8:10       

Welcome: Dr. W. Walker, President, Auburn University


Session 1: Markets and Technologies of Diamond Materials
CHAIRS: J. C. Angus and A. Grill

8:10-8:35
1.1       CVD Diamond: The Industrial Landscape
R. S. Sussmann, King’s College London, UK 

8:35-9:00       

1.2        Diamond and Diamond-Like Carbon Films And Coated Products - A Technology And Market Update

T. Abraham, Business Communications Co., USA 

9:00-9:25
1.3        Diamond Synthesis in Perspective
James Sung
China Grinding Wheel Corporation, Taiwan, ROC
Taipei University of Technology, Taiwan, ROC

9:25-9:50
1.4       R&D of Diamond Films in Kobe Steel
K. Kobashi and Y. Yokota, Frontier Carbon Technology Project/JFCC, Japan
N. Kawakami, T. Tachibana, K. Hayashi, and K. Inoue, Kobe Steel, Ltd., Japan

9:50-10:15
1.5      
R&D of Diamond Films in Sumitomo Electric 

Takahiro IMAI, Sumitomo Electric Inc., Japan           

10:15-10:45
Break

Back to top of document

Session 2: Mass Production and Applications of Carbon Nanotubes
CHAIRS: O. Zhou and M. Kusunoki

10:45-11:10
2.1       Recent Progress in Development of Large Scale Synthesis of Multi-Walled Carbon Nanotubes of the Frontier Carbon Projects
Motoo Yumura, Satoshi Ohshima, Hiroki Ago and Kunio Uchida, National Institute of Materials and Chemical Research, Japan
Hitoshi Inoue,Toshiki Komatsu, Japan Fine Ceramics Center, Japan  

11:10-11:35
2.2       
Catalytically Grown Carbon Nanotubes And Their Applications

Chunming Niu, Bob Hoch and Howard TennentHyperion Catalysis International, USA

11:35-12:00
2.3       
Applications of Carbon Nanotubes to Hydrogen Storage, Supercapacitors, Amplifiers, And Field Emission Displays

Young Hee LeeSungkyunkwan University, South Korea           

12:00-12:25
2.4        
Mechanics of Carbon Nanotubes
Rod Ruoff, Northwestern University, USA

12:25-14:00

Break and Posters

Back to top of document

Session 3: DLC as Dielectrics and for Magnetic Media
CHAIRS: A. Erdemir and D. R. McKenzie

14:00-14:25
3.1       From DLC to DLC-SiO2 Hybrid Low-k Dielectrics for ULSI Interconnects
Alfred Grill, IBM – T.J.Watson Research Center, USA

14:25-14:50
3.2
       Thin Film Diamond-Like Carbon Dielectrics
Richard L.C. Wu and J. D. Wrbanek, K Systems Corporation, USA   
M. Freeman, DARPA TACTICAL Technology, USA
S. Fries-Carr and  J. Weimer, Air Force Research Laboratories, USA

14:50-15:15
3.3      
Sub 10 nm Thick Amorphous Carbon Overcoat FOR Thin Film Magnetic Media

Takayuki YAMAMOTO and Hiroyuki HYODOFujitsu Laboratories Ltd., Japan
Takashi TOYOGUCHI, Yamagata Fujitsu Ltd., Japan


15:15-15:40
3.4       
Improvements of Tribological Properties of Metal Evaporated Tapes for Digital Recording by DLC Protective Coating

Hiroyuki Osaki, Sony Corporation, Japan           

15:40-16:10

Break

Back to top of document

Session 4: B-C-N Materials
CHAIRS: J. C.-M. Sung and Y. Koga

16:10-16:35
4.1            Molecular Dynamics Simulations of the Structure of Amorphous Carbon Containing Nitrogen
D. R. McKenzie, University of Sydney, Australia
A. Merchant and D.G. McCulloch, R.M.I.T. University, Australia         

16:35-17:00
4.2           
Reactive Magnetron Sputtering of Hard C-N And Si-C-N Films And Their Properties

J. Vlcek, M. Kormunda, J. Cizek and V. HajekUniversity of West Bohemia, Czech Republic 

17:00-17:25
4.3           
Growth of DLC And BCN Films by Magnetron Sputtering Using Sintered Diamond And c-BN Target

Naoto Ohtake, Tokyo Institute of Technology, Japan
 

17:25-21:00
Break and Posters

Back to top of document

TUESDAY, AUGUST 7, 2001

Session 5: Review of Research Programs

CHAIRS: R. S. Sussmann and J. T. Glass

8:00-8:30       
5.1
       NSF Funded Research Programs on Hard Coatings and Carbon Nanotechnology
Jorn Larsen-Basse, National Science Foundation, USA

8:30-9:00
5.2      
ONR Research Programs on Carbon Nanotube

John Pazik, Office of Naval Research, USA

 
9:00-9:15
5.3
        Current Status of R&D in Frontier Carbon Technology (FCT) Project - Overview
M. Yoshikawa, FCT Project/ JFCC, Japan           

9:15-9:30
5.4          
Activity of Novel Materials Synthesis Technology Group in Frontier Carbon Technology Project

Yoshinori Koga, Research Center for Advanced Carbon Materials, AIST, Japan

9:30-9:45
5.5          
Current Status of R&D in Frontier Carbon Technology (FCT) Project – Electrically Functional Materials

K. Kobashi
, FCT Project/ JFCC, Japan 

9:45-10:00
5.6          
Developments of Hard Carbon Films and Their Tribological Properties in Frontier Carbon Technology Project

Akihiro Tanaka, National Institute of Advanced Industrial Science and Technology, Japan 

10:00-10:30

Break

Back to top of document

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

Back to top of document

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

Back to top of document

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

Back to top of document

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 DiaChemŇ 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

Back to top of document

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

Back to top of document

Session 11: Tribological Applications of Carbon Materials
CHAIRS: K. Miyoshi and J. Larsen-Basse

14:00-14:25 

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

Back to top of document

Session 12: Diamond Optics
CHAIRS: T. Shibata and K. Y. Eun

15:45-16:10

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
and Poster

Back to top of document

THURSDAY, AUGUST 9, 2001

Session 13: HTHP and CVD Diamonds
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

13.4     Preparation of Diamond Surfaces
J. E. Butler, Naval Research Laboratory, USA

9:40-10:10
Break

Back to top of document

Session 14: CVD of Diamond
CHAIRS: B. Spitsyn and K. Komaki

10:10-10:35
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
14.3      Elaboration And Mechanical Properties of Diamond Coatings Obtained by Flame Process
D. Paulmier and M. Schmitt, LPMM-ERMES, France
M. Mermoux, Domaine universitaire, France


11:25-13:00
Break and Posters

Back to top of document

Session 15: Novel Nanotube Related Materials and Structures
CHAIRS: S. Iijima and G. A. J. Amaratunga

13:00-13:25
15.1            Carbon Nanotubes for Large-Area Field Emission Displays
J.M. Kim1,2,3, N.S. Lee1, and J.H. You2
1
FED 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

Back to top of document

Session 16: Cubic Boron Nitride
CHAIRS: M. Murakawa and J. Vlcek

15:10-15:35

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

Back to top of document

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

9:15-9:45
Break

Back to top of document

Session 18: Diamond and Carbides
CHAIRS: E. Kohn and R. L. C. Wu

9:45-10:10

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

Back to top of document

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
Alejandro Suarez, Mark A. Prelas, T. K. Ghosh, Robert V. Tompson, S. Loyalka, D. Viswuanath
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
A.B. Spitsyn, M.A. Prelas, T.K. Ghosh, R.V. Tompson
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

Back to top of document

POSTER SESSIONS

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

(Please set up posters before 13:00 Monday and remove posters on Tuesday morning before 10am)

Industrial Diamonds

20.1     The Production And Features of Industrial Diamond Made in China
Zhibin Zhan, Queenbee Diamond Industrial Co. Ltd., China
Aiguo Yao and Bairu Xia, China University of Geosciences, China


Diamond Electronics and Sensors



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.Gavrilov,
Zelenograd’s Physical Problems Institute, Russia.


20.5     Novel Electronic Devices Using Diamond Thin Films
A. Vaseashta, Marshall University, USA


20.6      Electron And Hole Contribution to The Response of CVD Diamond Nuclear Detectors
Marco Marinelli, E. Milani, A. Paoletti, A. Tucciarone, G. Verona‑Rinati
Universitŕ di Roma “Tor Vergata”, Italy
S. Albergo, V. Bellini, A. Musumarra, R. Potenza, C. Randieri, M.L. Sperduto, C.M.
Sutera e A. Tricomi, Universitŕ di Catania (Italy)
Istituto Nazionale di Fisica Nucleare, Italy

20.7      Temperature Dependence of Trapping-Detrapping Effects in CVD Diamond Particle Detectors
Marco Marinelli, E. Milani, A. Paoletti, A. Tucciarone, G. Verona Rinati
Universitŕ di Roma, Italy
M. Angelone, M. Pillon, EURATOM-ENEA sulla Fusione, Italy

Diamond Micro-Electro-Mechanical Systems (MEMS)

Back to top of document

20.8     On the Fabrication And Behavior of Diamond Microelectromechanical Sensors (DMEMS)
K. Holmes, J.L. Davidson, W.P. Kang, M. Howell, Vanderbilt University, USA

Electron Emitters

20.9      Microfabrication of Various Electron Emitters on Single Crystal Diamond
Y. Nishibayashi1), Y. Ando1), K. Kobashi1), K. Meguro2), T. Imai2), T. Hirao3), and K. Oura3)
1) Osaka University, Japan
2) Sumitomo Electric Industries, 016 Japan
3) Osaka University, Japan

20.10   Field Emission from Diamond Films Containing Ion-Implanted Graphitic Regions
N. Koenigsfeld and R. Kalish, Technion, Israel
Hoffman and R. Akhvlediani, Technion, Israel

20.11   Field Emission Characteristics of Ion-Implanted CVD Diamond
T. Ono, T. Sakai, N. Sakuma, L. Zhang and H. Yoshida
JFCC and Toshiba Corporation, Japan
M. Hasegawa and H. Okushi, Electrotechnical Laboratory, Japan

20.12   N-Doped CVD Diamond Films as A Low Temperature Thermionic-Field Electron Source
F. A. M. Köck, J. M. Garguilo, B. Brown, R.J. Nemanich, North Carolina State University, USA

20.13   Field Emission, PEEM and FEEM Measurements of Emitting Sites of MPCVD Grown NanoCrystalline Diamond Films
J. M. Garguilo, F. A. M. Köck, B. Brown, R.J. Nemanich, North Carolina State University, USA

20.14    Investigation on Field Emission of Si Tips with Nanocrystalline Diamond Coatings
W. L. Wang,  K.J. Liao, Chongqing University, P. R.China

20.15     Parameter Estimation for Electron Field Emission
Greg Walker, Sam Shin, Tim Fisher, Vanderbilt University, USA
Jim Davidson, Weng-Poo Kang, Vanderbilt University, USA

Back to top of document

Diamond Electrodes

20.16   STM And Electrochemical Investigation of Homoepitaxial Boron-Doped CVD Diamond Films
John B. Cooper, Jason A. Moulton, Old Dominion University, USA
Sacharia Albin, and Bing Xiao, Old Dominion University, USA

20.17   CVD and HTHP Diamond Electrodes: Effects of Crystal Structure
Yu. V. Pleskov, Yu. E. Evstefeeva, M. D. Krotova, V. Ya. Mishuk
Russian Academy of Sciences, Russia
V. A. Laptev
All-Russia Research Institute for Synthesis of Mineral Raw Materials, Russia

Diamond Optics


20.19   Surface Flashover Characteristics of Polychristalline Diamond And DLC Dielectric Thin Films in Vacuum: A Review
Hulya Kirkici, Auburn University, USA

Back to top of document

Diamond Machining Tools

 

20.21   Diamond Cutting Tools for Dry Machining Application
Prabhu Arumugam, Ajay P. Malshe* and Steve Batzer, University of Arkansas, USA


20.22   CMP Pad Dresser: A Diamond Grid Solution
James Sung, KINIK Company, Taiwan, ROC

20.23   The Reciprocative Sawing of Granite
James C. Sung, KINIK Company, Taiwan, R.O.C.
Taipei University of Technology, Taiwan, R.O.C.


20.24   The Casting of CVD Diamond
James Sung & Shiao-Kuo Chang
Kinik Company & National Taipei University of Technology, Taiwan, R.O.C

20.25   An Analysis of The Catalysis of Fe, Ni or Co on The Wear of Diamonds
Masao Uemura, Toyohashi University of Technology, JAPAN

High Pressure High Temperature Diamond Processes

20.26   Fulerenes as A Co-Catalyst for HPHT Synthesis of Diamond
A. Ya. Vul’,  S. V.  Kidalov, Ioffe Physico-Technical Institute, Russia
V.  M. Davidenko, V. A. Yashin, Abrasive factory “Ilih”, Russia
S. S. Ordanyan, St.Petersbur State Technological University, Russia


20.28   The Multi-Anvil Spherical Type Device of High Pressure with Cubic Compression Chamber
Guerold Bobrovnitchii, State University of the North Fluminense, Brazil
Eduard Persikov, Institute of Experimental Mineralogy, Russia


20.29   The Optimized Cell Design for High Pressure Synthesis of Diamond
James C. Sung
KINIK Company, Taiwan & Taipei University of Technology, Taiwan


20.30   Liquid Phase Synthesis of Diamond in Hydrogen Atmosphere
Hsiao-Kuo Chung1, Ming-Show Wong2, Yong Liu3, James C. Sung1,4
KINIK Company, Taiwan, R.O.C.
Tung-Hwa University, Taiwan, R.O.C.
Chinese Academia Sinica, Taiwan, R.O.C.
Taipei University of Technology, Taiwan, R.O.C

20.31   13C NMR Spectroscopy of Amorphous Hydrogenated Carbon And Amorphous Hydrgenated
Carbon Nitride Grown at Various Substrate Temperatures
S.-H. Lin, J. BraddockWilking and B. J. Feldman
University of Missouri-St. Louis, St. Louis, USA

Back to top of document

Ultradispersed Diamonds

20.32   Chemical States Carbon Atoms on Upper Layers of Ultra Dispersion Diamond (UDD) and Natural Diamond (ND)
A.P. Dementjev, RRC "Kurchatov Institute", Russia

Diamond  Nucleation

20.33   Ultradisperse Diamond. Structure, Phase Transformation And Application for CVD Diamond Films Growth
E. Alexenskii,  M. V.  Baidakova, N. A. Feoktistov, V. G. Golubev,  S. Grudinkin,    A. T.  Dideikin,  V. G. Melehin, V. Yu. Osipov, V.  I. Siklitski,  A. Ya. Vul’
Ioffe Physico-Technical Institute, Russia
A. M. Panich, .I. Shames , Ben-Gurion University of the Negev, Israel
W. Kempiński, Polish Academy of Sciences, Poland
A. Krüger, E. Osawa, M. Ozawa, Toyohashi University of Technology, Japan


20.35   Effect of Cyclic Time Interval of CH4 Flow Rate on The Diamond Nucleation Density on Glass Substrate
Sung-Hoon Kim, Eun-Jin Bae, Silla University, Korea
Tae-Gyu Kim, Miryang University, Korea
Young-Hun, Kim, Korea University, Korea
T. Hosomi, T. Maki, and T. Kobayashi
, Osaka University, Japan


Homoepitaxial Growth of Diamond

20.37   Boron Doped Diamond Homoepitaxial Films Grown on (100) Substrates Investigated by Scanning Tunneling Microscopy
Bing Xiao, Weihai Fu, and Sacharia Albin, Old Dominion University, USA
Jason Moulton, and John Cooper, Old Dominion University, USA


20.38    Cathodoluminescence Topography of Homoepitaxial Diamond Made by Microwave Plasma CVD
Hisao Kanda, Satoshi Koizumi, Kenji Watanabe
National Institute of Material Sciences( NIMS ), Japan
Tokuyuki Teraji, Osaka University, Japan

Back to top of document

Growth and Manufacturing of Diamond

20.39   Gas-Phase Concentrations and Temperature Measurements of C2 in A Diamond Depositing DC-Arcjet CVD System
J.A. Smith*, K.N. Rosser, P.W. May, H. Yagi1, A.J. Orr-Ewing and M.N.R. Ashfold
University of Bristol, U.K.
1University of Ehime, Japan

20.40    Metastable Growth of Diamond in Molten Alloy
Yen-Deh Chen, Kai-Hon Hsu, Hsiao-Kuo Chung, James C. Sung
Kinik Company, Taiwan, R.O.C., and National Taipei University of Technology, Taiwan


20.41    Fabrication of Diamond Micropatterns by ECR Oxygen Plasma with A Metal Napthenate Mask
Shuji Kiyohara and Katsumi Mori, Science University of Tokyo, Japan

20.42    Morphological Control of Diamond FILMS Using a 60 KW Microwave Plasma CVD Reactor
Y. Yokota, Y. Ando, T. Tachibanaa), A. Watanabe, Y. Nishibayashi, and K. Kobashi, Osaka University, Japan
T. Hirao and K. Oura, Osaka University, Japan

20.43   Highly Effective Set Up for Diamond Coatings Deposition
V. K. Pashnev, O. A. Opalev, I. I. Vyrovets, V. E. Strel'nitskij, Belous V. A.,
National Science Centre "Kharkov Institute of Physics & Technology", Ukraine
Z. I. Kolupaeva, Kharkov State Polytechnical University, Ukraine, Frunze str. 2
Shmalko Yu. F., Institute of Mechanical Engineering Problems Ukraine

20.44   High Growth Rate And High Quality CVD Diamond Growth
H.-G. Jentsch, S. M. Rosiwal, R. F. Singer
Friedrich-Alexander Universität Erlangen Nürnberg, Germany
H. Eibisch, Neue Materialien Fürth GmbH, Germany


20.45   The Rapid Growth of Thin Transparent Films of Diamond
Hsiao-Kuo Chung and James C. Sung
KINIK Company, Taiwan

20.46   Diamond Particles Synthesized on Glassy And Oxide Substrates
Yoshiki TAKAGI & Fumitomo ONISHI
Teikyo University of Science & Technology, JAPAN

20.47   High Quality Diamond Growth on Iron And Steel Substrates
Eri NAKAMURA, Manabu OHYAMA, and Kenji K. HIRAKURI
Tokyo Denki University, Japan
Nobuki MUTSUKURA, and Yoshio MACHI, Tokyo Denki University, Japan
Gernot FRIEDBACHER, Vienna University of Technology, Austria

20.48   The Uniformity of 8 Inch CVD Diamond Films
Sheng-Yi Lee, Shiao-Kuo Chang, Jow-Lay Hung, & James C, Sung
KINIK Company, Taiwan, R.O.C

20.49   Optical Quality Diamond Wafer Synthesis by Multi-Cathode DC PACVD
Kwang Yong Eun, Jae-Kap Lee and Young-Joon Baik,
Korea Institute of Science and Technology, Korea


Back to top of document

TUESDAY, AUGUST7, 2001

Session 21: Tuesday Posters
CHAIRS: R. Blumenthal and B. Clausing

(Please set up posters before 13:00 Tuesday and remove posters on Wednesday morning before 10am)

Growth and Manufacturing of Diamond


21.1     Synthesis of Diamond under High Pressure Using Hot-Filament CVD Method
Eri NAKAMURA, Toshihiro KOBAYASHI, and Kenji K. HIRAKURI
Tokyo Denki University, Japan
Nobuki MUTSUKURA, and Yoshio MACHI, Tokyo Denki University, Japan
Gernot FRIEDBACHER, Vienna University of Technology, Austria


21.2      Diamond Synthesis by Microwave And DC Hybrid Plasma CVD
Keiji Fuji, Taku Sumitomo, Akimitsu Hatta
Kochi University of Technology, Japan

21.3      Chemical Processes in ECR-Microwave Plasmas Capable of Diamond Film Deposition
Rik Blumenthal, Auburn University, USA


21.4      Experimental Confirmation of Possibility of Synthesis of Diamond Single Crystals Similar to Natural
T.A.Nachalnay, V.G.Malogolovets, G.A.Podzyarey, S.A.Ivahknenko, O.A.Zanevskiy, Institute for Superhard Materials of NAS of Ukraine, Ukraine
I.A. Novoselova, Institute of General & Inorganic Chemistry of NAS of Ukraine, Ukraine


21.5      Temperature Gradient Induced Growth of 100 Oriented Diamond Using Hot Filament Chemical Vapor Deposition
E. Titus, A. K. Sikder and D. S. Misra, Indian Institute of Technology Bombay, India


21.6      Diamond Micro Crystals Grown by CVD Method
Hsiao-Kuo Chung and James C. Sung
KINIK Company, Taiwan, R.O.C.

21.7    The Dawn of Diamond Age
James Chien-Min Sung, Kinik Company, Taiwan, ROC, Taipei University of Technology, Taiwan, ROC 


21.8     The Eastern Wind of Diamond Synthesis
James C. Sung & John C. Chen
KINIK Company, Taiwan, R.O.C. and Taipei University of Technology, Taiwan, R.O.C.
Fine Abrasives Company of Taiwan, Taiwan, R.O.C


21.9      Modern Thermodynamics for Activated Low Pressure CVD Diamond Synthesis
Ji-Tao Wang, Fudan University, China

Back to top of document

Characterization of Diamonds


21.10     Influence of Electron Beam Irradiation on Wettability of Diamond Surface

Kazuya OGURI, Akira TONEGAWA, Tokai University, Japan
Nobuhiro IWATAKA and Yoshitake NISHI, Tokai University, Japan


21.11   Time-Resolved Electrical Resistance Measurements of Graphitized Layers in Diamond During Pulsed Laser Irradiation
S.M. Pimenov, V.V. Kononenko, E.V. Zavedeev, V.I. Konov
General Physics Institute, Russia
M. Kehrli, W. Lüthy, V. Romano, H.P. Weber, University of Bern, Switzerland
R.A. Khmelnitskiy, P.N. Lebedev Physical Institute, Russia

21.12     Mechanism of Electrical Conductivity Appeared in Surface Region of Undoped Diamond Film
Takeshi Hosomi1,3), Kiyoshige Tsuji1,3)  and Takeshi Kobayashi1,2,3)

1) Osaka University, Japan.

2) FCT Collaborating Member, Japan

3) Japan Science and Technology Corporation (JST), Japan

21.13     Application of Raman Spectroscopy to Determine Stress in Polycrystalline Diamond Tools as A Function of Tool Geometry And Temperature
J D Comins, R M Erasmus and V Mofokeng, University of the Witwatersrand, South Africa
Z Martin, University of Oxford, United Kingdom

21.14     Evaluation of Crystal Defects in (111) Single Crystal Diamond by Cathodoluminescence Spectroscopy
Sadao Takeuchi and Masao Murakawa, Nippon Institute of Technology, Japan

21.15     Vacancy in Bulk Diamond and Diamond Film: A Molecular Dynamics Simulation
X.J.Hu  Y.B.Dai  H.S.Shen  Z.M.Zhang  Y.Z.Wan  X.C.He
Shanghai Jiao Tong University, China

Back to top of document

Electron Emitter

21.16     Conducting Tracks in Diamond-Like Carbon Films
J. Krauser, A. Weidinger, V. Hoffmann, Hahn-Meitner-Institut, Germany
C. Trautmann, Gesellschaft für Schwerionenforschung mbH, Germany
B. Schultrich, Fraunhofer-Institut IWS, Germany

21.17   Field Emission from Nanostructured Diamond on Porous Silicon
W. L. Wang, K. J. Liao, C. Y. Kong, Chongqing University, P. R. China


Protective DLC Films

21.19   High Performance DLC Coatings for Severe Wear Applications
Suri A. Sastri, Nilesh Gunda and Richard Cooke, Surmet Corporation, USA
Santosh Jha and Vimal Desai, University of Central Florida, USA


21.20   Low-Temperature Technology of Obtaining The Protecting Layer from Diamond-Like Films
Kassabian K., Panosyan Zh., Stepanyan A., Torosyan G., Yengibaryan Y.
State Engineering University of Armenia, Armenia


21.21   The Applications of Amorphous Diamond Deposited by Cathodic Arc
James C. Sung
KINIK Company, Taiwan, & Taipei University of Technology, Taiwan, R.O.C.

Back to top of document

Wear  and Tribology

21.22   Friction And Wear of Nano-Size Diamond Films with Amorphous Phase
Koichiro Wazumi, Japan Fine Ceramics Center, Japan
Yoshinori Koga , Akihiro Tanaka, AIST, JAPAN

21.23   Low Temperature Growth of Nanostructured Diamond Films on Metals
Paul A. Baker, Shane A. Catledge, and Yogesh K. Vohra, University of Alabama at Birmingham (UAB), USA 


21.24   The Tribology of Amorphous Diamond

Shenq Y. Luo1, Jui-Kang Kuo2, Brian Yeh2, James C. Sung2, Chuang-Wen Dai3, and Tsung J. Tsai1
1. Huafan University, Taiwan, R.O.C.
2. Kinik Company, Taiwan, R.O.C.
3. Tamkang University, Taiwan, R.O.C


21.25   Peem And Nexafs Analysis of Wear Debris of Si Incorporated Diamond Like Carbon Films in Various Environments

Sejun Park, Kwang-Yong Eun, Kwang-Ryeol Lee, Korea Institute of Science and Technology, KOREA
Andreas Scholl, Frithjof Nolting, H. Padmore, University of Berkeley, USA


Nitrogen-, Silicon-, and Metal-Containing DLC Films

21.26   Effect of Nitrogen in Amorphous Carbon Films Deposited by Electron Cyclotron Resonance Plasma Sputtering Method
T. OHANA1, T. NAKAMURA1, A. TANAKA1, 2, Y. KOGA1, 2
1
AIST TSUKUBA Central 5, JAPAN
A. GOTO2
2
AIST TSUKUBA Central 5, JAPAN

21.27    Metalorganic Chemical Vapor Deposition of Ruthenium And Tungsten Doped Diamondlike Carbon Films
M. K. Sunkara, J. Krawczyk, M. Ueno, and Z. Liu, University of Louisville, USA
G. Lian and E.C. Dickey, University of Kentucky, USA


21.28    Nickel-Containing Carbon Films Deposited Using The Screen Grid Technique in An Electron Cyclotron Resonance Chemical Vapor Deposition System
 
Q. F. Huang, S. F. Yoon, Rusli, Q. Zhang and J. AhnNanyang Technological University, Singapore


DLC Deposition Processes

21.29    Formation of a-C Thin Films by Plasma-Based Ion Implantation
Toshiya WATANABE, AIST Tsukuba Central 5, JAPAN
Kazuhiro YAMAMOTO, Yoshinori KOGA and Akihiro TANAKA
AIST Tsukuba Central 5 , JAPAN

21.30   Highly Adhesive Diamond-Like Carbon Film by Ion Mixing Methods
Kenji Fuchigami, Katsumi Suzuki, Kazuo Uematsu
Ishikawajima-Harima Heavy Industries Co., Ltd., JAPAN

21.31  
 Properties of Flexible DLC Film Deposited by Amplitude-Modulated RF p-CVD
Takahiro NAKAHIGASHI, Nippon ITF, Inc., Japan

21.32 Deposition of DLC Film in A CLosed-Space CH4 RF Plasma

Nobuki Mutsukura and Yujin Handa
Tokyo Denki University, Japan

21.33   A Method for Deposition of Amorphous Diamond
Jawad Haidar, CSIRO Telecommunications and Industrial Physics, Australia

21.34   The Influence of Substrate Bias And Argon Flow on The Properties of Amorphous Diamond Deposited by Cathodic Arc
Wen Ting Yeh1, Sea-Fue Wang2, James Sung1
Kinik Company, and National Taipei University, Taiwan, R.O.C.
National Taipei University, Taiwan, R.O.C.

21.35    Structure And Mechanical Property of Carbon Films Prepared by Mass-Separated Ion Beam Deposition
Kazuhiro Yamamoto, Yoshinori Koga, and Shuzo Fujiwara
National Institute of Materials and Chemical Research  (NIMC), Japan
Toshiya Watanabe, Koichiro Wazumi, and Fumio Kokai, JFCC, Japan

21.36   On Efficiency of Plasma Filters for the Cathhodic Arc Synthesis of   DLC Films
I. I. Aksenov, D. Yu. Zaleskij, V. E. Strel'nitskij
National Science Centre "Kharkov Institute of Physics & Technology", Ukraine

21.37    Amorphous Diamond Deposited by Cathodic Arc with Controlled Asperity
Ming-Chi Kan, Jow-Lay Haung, Wen Ting Yeh, James Sung
National Cheng-Kung University, Taiwan, R.O.C.
Kinik Company, and National Taipei University, Taiwan, R.O.C.

21.39    Structure Analysis of Tetrahedral Amorphous Carbon Films Using Synchrotron Radiation Light Source
Churl-Seung Lee, Kwang Yong Eun, Kwang-Ryeol Lee
Korea Institute of Science and Technology, Korea
Ki-Hyun Yoon, Yonsei University, Korea
E. Gullickson, H. Padmore, University of  Berkeley, USA

Back to top of document

Novel Carbon Materials

21.40   Nano-Structural Properties of Carbon Materials Obtained from Organic Compounds
Mutsumasa Kyotania,b, Chiharu Yamaguchia,b, Akiko Gotob, Kazuo Akagic, Katsuhiro Sasakia,b, Hisaji Matsuib, Yoshinori Kogad

a National Institute of Materials and Chemical Research, JAPAN

b Osaka Gas Co., JAPAN

c University of Tsukuba, JAPAN

d National Institute of Materials and Chemical Institute, Japan

21.41    Carbonization of Polyacetylene by Pyrolysis
Akiko Goto1, Mutsumasa Kyotani1, Kazuo Tsugawa1, Yoshinori Koga1, 2

1Research Center for Advanced Carbon Materials, Japan

2Research Center for Advanced Carbon Materials, Japan

Kazuo Akagi, Guangzhe Piao, University of Tsukuba, Japan

21.42   A Florid Carbon Structure
Y. K. Yap, M. Yamaoka, M. Yoshimura, Y. Mori and T. Sasaki
Osaka University, Japan

21.43   Ab-initio Description And Prediction of Properties of Carbon-Based And Other Non-Metallic Materials
Diola Bagayoko and G. L. Zhao, Southern University and A&M College, USA

21.45    HRTEM Study of Carbon Aggregates Under Irradiation
J.C. ARNAULT, M. ROMEO, G. EHRET,  LE NORMAND
Institut de Physique et Chimie de Strasbourg, Strasbourg, France
F. BANHART, P. KOHLER-REDLICH, MPI Stuttgart, Germany

21.46    Systematic Study of Conditions for Deposition of Various Carbon Structures Prepared by Ion Beams
N. G. Shang, F. Y. Meng, Q. Li, X. F. Duan, Y. Lifshitz, C. S. Lee, S. T. Lee, I. Bello
City University of Hong Kong, China

21.47     Energy-Controlled Discontinuous Structure in Carbon Materials
D.Shvets, Institute for sorption and problems of endoecology of NAS Ukraine, Ukraine

21.48      Identification of Adventitious Carbon on a Carbon Surface by XPS and XAES
A.     P. Dementjev, K. I. Maslakov,A. V. Naumkin, O.O. Zabusov
1RRC Kurchatov Institute, Russia

Back to top of document

WEDNESDAY, AUGUST 8, 2001

Session 22: Wednesday Posters

CHAIRS: P. Pehrsson and A. Hirata

(Please set up posters before 13:00 Wednesday and remove posters before  Thursday afternoon 14:00)

Cubic Boron Nitride


22.1     Structure Variation of Cubic Boron Nitride Films in A Two-Step Process By Changing The Bias Voltage And Gas Composition
W.J. Zhang, S. Matsumoto, National Institute for Research in Inorganic Materials, Japan
Q. Li, I. Bello, and S.T. Lee, City University of Hong Kong, P.R. China

22.2      Superhard Composite Basch on Cubic Boron Nitride
Anatoly Bochko, Institute of Metallurgy and Science, Russia
Guerold  Bobrovnitchii, State University of North Fluminense , Brazil

Carbon Nitride


22.3     Rectifying Characteristics of W/P-Type c-BN Films
K. J. Liao, W. L. Wang, C. Y. Kong, Chongqing University, P. R. China


22.4    The Speculation of Superdiamonds
James Sung
KINIK COMPANY, Taiwan, R.O.C.
Taipei University of Technology, Taiwan, R.O.C.


22.5     Synthesis And Dielectric Properties of Carbon Nitride Thin Films
David C. Ingram, Ohio University, USA
William C. Lanter, Innovative Scientific Solutions, Corp., USA
Charles A. DeJoseph, Air Force Research Laboratory, USA
Richard L.C. Wu, K Systems Corp., USA


22.6     Structural Properties of Carbon Nitride Films Deposited by Reactive Pulsed Laser Deposition Technique
A.R.Phani and J.E.Krzanowski, University of New Hampshire, USA

22.7     Micro-Wear Properties of Ion-Plated Carbon Nitride Thin Films
Shuichi Watanabe, Shojiro Miyake and Masao Murakawa
Nippon Institute of Technology, Japan


22.8     Demonstration of Growth of Ultra-Hard carbon Nitrides films by Hot-Filament Chemical Vapor Deposition
Saibal Mitra, Justin Hartman, University of Tulsa, USA
Tobias Hanrath, University of Tulsa, USA


22.9     Process Parameters for Synthesis of Carbon Nitride Thin Films using Electron Cyclotron Resonance Plasma Sputter Method
Eiji Kamijo, Yoshifumi Aoi, Tatsuya Hirahara, Takashi Tochimoto
Ryukoku University, Japan


22.10   An XPS Study of Pulsed Laser Deposited CNx Films
F. LE NORMAND, J. HOMMET, IPCMS, France
T. SZORENYI1,2, C. FUCHS1, E. FOGARASSY1

1 CNRS-PHASE, France

2 Research Group on Laser Physics, Hungary

22.11   C3N4 Controversial And The Chinese Connection
James C. Sung
KINIK Company, Taiwan, R.O.C.
Taipei University of Technology, Taiwan, R.O.C.

Back to top of document

Silicon Carbide and Boron Carbide

22.12   A Study on The Gap State Distributions in Hydrogenated Amorphous Silicon Carbide Films Grown with ECR-CVD
K. Chew, Rusli, S. F. Yoon, Q. Zhang, V. Ligatchev, Q. F. Huang
Nanyang Technological University, Republic of Singapore


22.13   The Carbon Implantation in Silicon by Cathodic Arc
Wen Ting Yeh1, Ming-Chi Kan2, Sea-Fue Wang3, James Sung1
Kinik Company, and National Taipei University, Taiwan, R.O.C.
National Cheng-Kung University, Taiwan, R.O.C.
National Taipei University, Taiwan, R.O.C.


22.14    Deposition of Boron Carbide Thin Films And Their Hardness
Fumio Kokai and Manabu Taniwaki, AIST, Japan
Masatou Ishihara and Yoshinori Koga, AIST, Japan


22.15   The Spatial-Relative Joint Density of State for Amorphous Carbides
Z.Q.Ma, Xinjiang University, P.R.China

B-C-N Films

22.16    Electrical And Optical Properties of Ternary BCN Thin Films
Guanghua Chen, Shengjun, Zhang, Xuemei Song
Beijing Polytechnic University, China
Jinshun Yue, Lanzhou University, P. R. China


22.17    Monatomic Structures of B, C, N, and O: First-Principle Study of Relative Stabilities And Bulk Moduli
James C. M. Sung, National. Taipei University of Technology, Taiwan, R.O.C.
B. R. Wu and S. L. Lee, National Chung Cheng University, Taiwan, R.O.C.
M. F. Tai, National Chung Cheng University, Taiwan, R.O.C

Back to top of document

Carbon Nanotube Production and Applications

22.18    Numerical Analysis on The Dispersion Process of Carbon Clusters in Gas Evaporation Synthesis Using DC Arc Discharge
Shu Usuba, National Institute of Materials and Chemical Research, JapanYozo Kakudate, Hiroyuki Yokoi, Hironaga Suzuki and Syuzo FujiwaraNational Institute of Materials and Chemical Research, Japan

Carbon Nanotube Storage Systems and Capacitors


22.19    Secondary Battery for Hydrogen Storage Using Singlewalled Carbon Nanotubes Electrodes
Won Seok Kim, Young Soo Park, Kwan Ku Jeon, Keun Soo Kim, Kay Hyeok An, Jeong-Mi Moon, and Young Hee Lee
Sungkyunkwan University, South Korea

22.20   High Capacitance Supercapacitors Using Singlewalled-Carbon Nanotube And Polypyrrole Hybrid Electrodes
Kay Hyeok An, Jeong-Mi Moon, Dong Jae Bae, Seong Chu Lim, Young Hee Lee
Sungkyunkwan University, South Korea
Won Seok Kim, Young Soo Park, Kwan Ku Jeon, Young Min Shin, Hee Jin Jeong, Seoung Yol Jeong
Jeonbuk National University, South Korea


Processing of Carbon Nanotube

22.21   Low-Temperature Fluorination of Carbon Nanotubes
A.V. Okotrub, N.F. Yudanov, L.G. Bulusheva, A.I. Romanenko
Institute of Inorganic Chemistry SB RAS, Russia
A.L. Chuvilin, Boreskov Institute of Catalysis SB RAS, Russia


22.22    Systematic Study for Purification of Singlewalled Carbon Nanotubes
Jeong-Mi Moon, Kay Hyeok An, Chulsu Jo, Dong Jae Bae, Seong Chu Lim, Young Hee Lee, Sungkyunkwan University, Korea
Young Soo Park, Hee Jin Jeong, Jeonbuk National University, Korea
Gyeong-Su Park, Samsung Advanced Institute of Technology, Korea


22.23     Separation of CO2 and N2 from Flue Gases by Carbon Nanotubes
Rodney Andrews, Marit Jagtoyen, Eric Grulke
University of Kentucky, USA
Ki-Ho Lee, Zugang Mao, Susan B. Sinnott
University of Kentucky, USA and University of Florida, USA

Back to top of document

Carbon Nanotube Electron Emitters

22.24    Multiwalled Carbon Nanotubes Growth in Nano-Template And Their Application to A Field Emission Device
Soo-Hwan Jeong, Hee Young Hwang and Kun-Hong Lee
University of Science and Technology, Korea
Won-Ki Cho and Kwang-Young Kim, LG Electronics Inc., Korea


22.25   Field Emission from Carbon Nanotubes Grown on Plasma Treated Nickel/Silicon Substrate
W. K. Wong, Frederick C. K. Au, I. Bello, C. S. Lee, and S. T. Lee
City University of Hong Kong, China


22.26   Field Emission Properties of Ultra-Fine Multi-Walled Carbon Nanotubes Grown by Microwave Plasma CVD
Weihai Fu, Bing Xiao, and Sacharia Albin
Old Dominion University, USA


22.27    Characteristics of Carbon Nanotubes Synthesized by Laser Ablation Process
Hsiu-Fung Cheng a), Teng-Fang Kuo b), Tzai-Hsin Lai d), Chun-Horng Tsai c) and I-Nan Lin b);
a) National Taiwan Normal University, Taiwan
b) c) National Tsing Hua University, Taiwan
d) Chung-Yuan Christian University, Taiwan


22.28   Field Emission from Carbon Nanotubes Grown by Thermal CVD on NiCr Coated Si
Bing Xiao, Weihai Fu, and Sacharia Albin, Old Dominion University, USA

22.29    Aligned And Opened Carbon Nanotube Arrays And Field Emission Properties
Z.W. Pan, Zhong L. Wang, Georgia Institute of Technology, USA
S.T. Lee, City University of Hong Kong, P.R. China
S.S. Xie, Chinese Academy of Sciences, P.R. China


22.30     Microwave Plasma Assisted Brazing of Carbon Nanotubes And Deposition of Carbon Films on Iron Electrodes for Applications as Electron Field Emitters
Yonhua Tzeng, Chao Liu, and Calvin Cutshaw, Auburn University, USA

22.31     Hysteresis of Electron field Emission from Single-Walled Carbon Nanotubes Brazed on Iron Substrates
Chao Liu, Calvin Cutshaw and Yonhua Tzeng, Auburn University, USA

22.32     Secondary Electron Emission of Magnesium Oxide on Multiwalled Carbon Nanotubes
Won Seok Kim, Young Min Shin, Hee Jin Jeong, andYoung Hee Lee
Sungkyunkwan University, South Korea
Whikun Yi, SeGi Yu, Taewon Jeong, Jeonghee Lee, Sunghwan Jin, Jungna Heo
Samsung Advanced Institute of Technology, Korea


22.33   Work Function at The Tips of Multiwalled Carbon Nanotubes
R.P. Gao, Z.W. Pan, Zhong L. Wang, Georgia Institute of Technology, USA

Back to top of document

Electrical and Electronics of Carbon Nanotube

22.34    Charge Transfer, Structure, And Electronic Properties of K-Doped Single-Wall Carbon Nanotubes
Chulsu Jo and Young Hee Lee, Sungkyunkwan University, Korea

22.35     Electrical Resistivity of Anisotropically Aligned Singlewalled Nanotube Film
Dong Jae Bae, Kae Hyeok An, Jeong Mi Moon, Seong Chu Lim and Young Hee Lee
Sungkyunkwan University, Republic of Korea
Keun Soo Kim, Young Soo Park
, Jeonbuk National University, Republic of  Korea


22.36     Oxidation of Carbon Nanotubes And Change of Their Electronic And Geometric Structures
Seong Chu Lim, Hee Jin Jung, Dong Jae Bae,  Jeonbuk National University, South Korea
Kay Hyeok An, Young Min Shin, Young Hee Lee
Sungkyunkwan University, South Korea,
Jaewu Choi, Louisiana State University,  U. S. A

22.37    Electronic Structure Modification of Multiwalled Carbon Nanotubes by Ion Bombardment And Thermal Treatment
Jaewu Choi, Louisiana State University, USA
Young Chul Choi, Samsung SDI, Korea
Young Hee Lee, Sungkyunkwan University, Korea

Mechanical Properties and Applications

22.39   The Fracture Strength of Carbon Nanotubes in Hydrogen Environment
L.G. Zhou1,2 and S.Q. Shi1

1Hong Kong Polytechnic University, China

2Northeastern University, China

22.40    Fracture Stress Enhancement by EB Treatment of Carbon Fiber
Atsushi KIMURA, Akihiro MIZUTANI, Takashi TORIYAMA Kazuya OGURI, Akira TONEGAWA and Yoshitake NISHI
Tokai University, JAPAN

Back to top of document

Carbon Nanotube Synthesis and Patterning

22.41    Carbon Nanotubes And Carbon Nanofibers Synthesized by Sublimating Decomposition of Silicon Carbide with Catalysts
Kazuo Tsugawa and Akiko Goto , National Institute of Advanced Industrial Science and Technology (AIST) Central 5, Japan
Yoshinori Koga, AIST Tsukuba Central 5, Japan


22.42    Synthesis of Carbon Nanotubes by Microwave Heating
Eun Hwa Hong, Kun-Hong Lee, Pohang University of Science and Engineering, South Korea
Sang Ho Oh, Chan-Gyung Park, Pohang University of Science and Engineering, South Korea
Chang-Mo Ryu, Pohang University of Science and Engineering, San 31, South Korea
Jong Hun Han, Jae Eun Ryu, Iljin Nanotech Co., Ltd., South Korea


22.43   Multi-Walled Carbon Nanotubes from Ethylene Diffusion Flames
Liming Yuan and Kozo Saito, University of Kentucky, USA
Forman Williams and Alvin Gordon, University of California at San Diego, USA


22.44    Temperature Control During Arc Carbon Nanotube Growth
Ivaylo Dimitrov Hinkov, Vincent Fichot, Samir Farhat
LIMHP Université Paris 13, France
Marc Lamy De La Chapelle, Tsinghua University, China
Carl D. Scott, NASA, Lyndon B. Johnson Space Center EM2, USA


22.45    Boundary-Layer Control During Carbon Nanotube Growth by Arc Method
Ivaylo Hinkov, Philippe Desmarest , Samir Farhat, Université Paris Nord, France

22.46    Growth of Aligned Carbon Nanotubes on Silicon by RF-Plasma Assisted Pulsed-Laser Deposition
Y. K. Yap, M. Yamaoka, M. Yoshimura, Y. Mori, T. Sasaki, Osaka University, Japan.
T. Hanadam Osaka University,  Japan
H. Furuta, T. Hirao, Osaka University, Japan.
S. Honda and K. Oura, Osaka University, Japan


22.49   Radial And Vertical Vapor Grown Carbon Fibers (VGCF)
Maheshwar Sharon, Debabrata Pradhan, Indian Institute of Technology, India

Back to top of document


Main Page ADC/FCT 2001 Sponsored By
Who Should Attend Invited Speakers Organization Committee
Program Committee International Advisory Committee Short Courses
Call for Papers Registration Mailing List
Final Program Local Arrangements