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Symposium Descriptions |
Category A:Nanotechnology and Nanoscale Materials Processing
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No.
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Symposia |
Chairpersons (representative, contact) |
Keywords & Topics
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A-1
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Growth of Well-Defined Nanostructures
[PDF]/[HTML] |
N. Koguchi (NRIM) |
Formation of Nanostructures from Semiconductor, Metal, and Polymeric Materials/ Creation of Nanostructures for Devices/ Mechanism of Nanostructure Formations/ Materials Science of Nanostructures |
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A-2
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Prof. Atsushi Takahara (Kyushu Univ., takahara@cstf.kyushu-u.ac.jp), Prof. Keigo Aoi (Nagoya Univ.), Prof. Chang-Sik Ha (Pusan National Univ., Korea),Shin Horiuchi (AIST) |
Design of polymeric materials with controlled nanostructures / Nanostrucutrecontrol of surface and interfaces/ Control of three dimensional nanostructures/ Polymer nanocomposites/ Functional properties of polymeric materials with controlled nanostructures |
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A-3
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Prof. H. Koinuma (Tokyo Institute of Technology), Prof. T. Hasegawa (Tokyo Institute of Technology, t.hasegawa@rlem.titech.ac.jp), Dr. T. Chikyow (NanoMaterial Research Laboratories, NIMS) |
Combinatorial thin film growth and synthesis, Material informatics for combinatorial technology, Combinatorial catalysis synthesis, Combinatorial polymer synthesis, Combinatorial synthesis by wet process, Discovery of novel functional materials by combinatorial synthesis, High-throughput characterization for combinatorial specimen, |
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A-4
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Surface Nanoassemblies
[PDF]/[HTML] |
Osamu Takai (Nagoya Univ.), Hiroyuki Sugimura (Nagoya Univ., sugimura@numse.nagoya-u.ac.jp), Hiroaki Misawa (Tokushima Univ.), Mehmet Sarikaya (Univ. of Washington), Arturo Lopez-Quintela (Univ. of Santiago de Compostela), Michael Hietschold (Chemnitz Univ. of Tech.) |
Surface Nanostructure, Surface Nanotexture, Thin Film Deposition, Fineparticle and Cluster Assemblies, Biomimetics, Nano- and Micro-Fabrication, Nano- and Micro-Patterning, Nano- and Micromachine, Lithography, Self-Assembling, Self-Organization, Tenplating, Plasma, Ion and Radical Processes, Electrochemical Processes, Dry Processes, Wet Processes, Surface Modification, SurfaceMounting, Surface Measurement, Surface Analysis |
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A-5
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Nanostructure Coating
[PDF]/[HTML] |
Toyonobu Yoshida (Univ. of Tokyo), Hideaki Matsubara (JFCC, matsubara@jfcc.or.jp ), Yutaka Kagawa (Univ. of Tokyo), Takashi Goto (Univ. of Tohoku) |
coating, nanostructure, ceramics, interface, PVD, CVD, plasma spray, thermal barrier, thermal stability, adhesion, oxygen barrier, electrode, porous materials, simulation, microstructure analysis |
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A-6
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Scanning Probe Nanotechnology
[PDF]/[HTML] |
T. Hashizume (Hitachi),
H. Shigekawa (Univ. of Tsukuba, hidemi@ims.tsukuba.ac.jp), Y. Suwa (Hitachi) |
scanninig probe microscopy,nanostructure,atom-molecule manipuration,molecular device |
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A-7
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S. Motojima (Gifu
Univ., motojima@apchem.gifu-u.ac.jp) |
a)Carbon micropoils/nonocoils,b)Herical polyacetylenne,c)Ceramic microcoils/nanocoils Ceramics springs,d)Herical polymers,e)Herical/coiling chirality |
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A-8
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Prof. H. Shinohara (Nagoya Univ.), Prof. E. _sawa (NanoCarbon Res. Inst. OsawaEiji@aol.com), Prof. T. Akasaka (Univ. Tsukuba), Prof. S. Maruyama (Univ. Tokyo), Prof. Y. Iwasa (Tohoku Univ.), Prof. S. Iijima (Meijo Univ), Dr. M. Tokumoto (AIST), Prof. S. Saito (Tokyo Inst. Technol.) |
nano-carbons in nanotechnology/chemistry and physics of fullerenes and carbon nanotubes/metall-fullerenes/nanohorns, peapods/multishell fullerenes/nano-heterotubes, nano-chalcogenites/natural nano-carbons/carbon magnets, superhard carbons, superconductivity |
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A-9 |
Masami Ikeyama (AIST), Junzo Ishikawa (Kyoto Univ.), Naoki Kishimoto (Nanomaterials Lab., NIMS), Yoshiaki Suzuki (RIKEN), Jiro Matsuo (KUEE, Kyoto Univ.), Kiyoshi Yatsui (Nagaoka Univ. of Tech.) |
Ion beam technology, Materials processing, Nonequilibrium processes, •Nanomaterials, Nanoparticles, Biomaterials, •Innovative materials, Innovative technology | |
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A-10
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Naoki Kishimoto (NIMS,KISHIMOTO.Naoki@nims.go.jp),Robert P. H. Chang (Northwestern Univ.), Akio Nishijima (AIST), Toyoki KunitakeiUniv. of Kitakyushu; RIKENj |
Nanotechnology Research Status Networking Nanotechnology Support Standardization Database International Cooperation Data-mining International Coordination Interdisciplinary Discussion Nanotechnology Strategy |
Category B: Electronic and Photonic
Materials and Devices
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B-1
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Si-LSI-related materials, processes and
characterization technology
[PDF]/[HTML] |
Jyunji Itoh(AIST) |
High-k & Low-k Materials and processes^Gate materials and processes^Interconnection materials and processes^New transistors and materials^Materials for Si Microsystems^Materials for Interconnection^Materials for Novel Electron Devices^Analysis and Instrumentation |
| B-2 | Prof. Mitsumasa Iwamoto, Prof.Keiichi Kaneto, Prof. Mitsuyoshi Onoda, Dr. Stanislav Nespurek, Dr. Ou-Yang Zhong-Can, Prof. Kazuhiro Kudo, Dr. Shinro Mashiko, Prof. Akihiko Sugimura, Prof. Young-Soo Kwon, Prof. Yung Woo Park, Dr. Yitaka Wakayama, Prof. Alan G. MacDiarmid | <Organic thin films with flexible structure> Organic thin films with nano-structure Funstinal organic materials Mono-molecular films, <Electronic and optically functional devices with nano-interface> Organic and optically functional devices Electronic functional devices Organic thin film sensors Bio-devices Organic and molecular memory Mono-molecular devices, < Evalustion techniques of interfacial function> Electronic and optically evaluationtechniques of nano-interface Nanometric organic electrochemistry Evaluation of flexible structure of nano-interface | |
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B-3 |
Hirotsugu Kikuchi (Kyushu Univ) | liquid crystal / molecular assembly / anisotropic gel / electro-optics / display device | |
| B-4 |
Photonic Nano-materials
[PDF]/[HTML] |
Tomokazu Iyoda (Tokyo Inst. Tech) | Integrated Molecular Circuitry, Supramolecular Assembly, Photonic Nano-materials, Nano-structured Materials, Particle-array Materilas, Modified Interfaces and Microelectrode, Molecular Functional Materials, and studies of theory, syntheses, processing, and application relating to nano-structures and their specific functions |
| B-5 |
Conducting Polymers
[PDF]/[HTML] |
Kazuo Akagi (Univ. of Tsukuba), Masayoshi Watanabe (Yokohama Nat. Univ.) | Electronic Conduction, Ionic Conduction, Field Effect Transistor, ElectroLuminescence, Polymer Battery (Lithium Battery, Fuel Cell), Polymer Electrolytic Capacitor, Antistatic Film, Electromagnetic Shield, Molecular Wire |
| B-6 |
Property and Application of Dielectric
and Ferroelectric Materials
[PDF]/[HTML] |
Takaaki Tsurumi (Tokyo Inst. Tech),Jun Akedo (AIST), Hiroshi Funakubo (Tokyo Inst. Tech.) | Keywords: Dielectrics, Ferroelectrics, Ferroelectric thin film memories, Ceramic capacitors, High-frequency application of dielectrics, LTCC, Piezoelectric materials, Pyroelectric materials, Sensors & actuators, MEMS |
| B-7 | Prof. H. Yamamoto (Nihon Univ), Prof. S. Ohshima (Yamagata Univ.), Dr. H. Kumakura (NIMS), Dr. M. Murakami (Superconductivity Research Lab.), Prof. L. Zhou (Northwest Inst. for Nonferrous Metal Res.), Prof. E. E. Hellstrom (Univ. Wisconsin-Madison) | Materials Properties and Processing of Novel Superconductors/ Advanced Characterization of Superconductors/Growth and Processing of Bulk Materials, Tapes and Wires/ Superconducting and Related Thin Film Processes/Electric Applications/ Electronic, Microwave, Optical Devices | |
| B-8 |
Prof. T. Endo (Mie Univ.), Dr. K. Endo (Ntl. I. AIST), Prof. M. Mukaida (Yamagata Univ.), Prof. H. Tabata (Osaka Univ.), Dr. A. Hoffmann (Argonne Ntl. Lab.), Prof. J. Nogues (Univ. Autonoma de Barcelona), Dr. E. H. Brandt (Max-Planck I..), Dr. A. P. Ramirez (Los Alamos Ntl. Lab.), Prof. I. Bozovic (Oxxel GmbH Tech. Univ.), Prof. D. H. A. Blank (Univ. Twente), Prof. D. G. Schlom (Penn. State Univ.), Prof. C. B. Eom (Univ. Wisconsin), Prof. C. N. R. Rao (JNCASR) |
Science and engineering of the processing of oxide thin films, single crystals, and bulk ceramics. Cutting-edge developments in the field of function-harmonized materials, multilayer films, and composites. Superconductors, ferromagnetic materials, CMR materials, ferroelectrics, insulators, optical materials, oxide fuel cells, and their combinations for oxide electronics. | |
| B-9 |
Advanced magnetic materials (ISAM2-2003,
International Symposium on Advanced Magnetic Materials-2003)
[PDF]/[HTML] |
Prof. M. Abe (Tokyo Inst. Tech), Prof. K. Takanashi (Tohoku Univ.), Prof. Y. Nakamura (Tokyo Inst. Tech.), Prof. M. Inoue (Toyohashi Univ. Tech.), Prof. Y. Hirotsu (Osaka Univ.), Prof. E. Kita (Univ. Tsukuba), Prof. T. Sato (Shinshu Univ.) | SoftHard Magnetic Materials/ Superlattices and Nanostructures/ Fine Particles/ Thin Films/ Spin Electronics/ Magnetic Semiconductors/ TMR/ GMR/ GMI/ Magnetic and MO Recordings/ Magnetic Devices and Biomedical Applications |
Category C: Advanced Materials for Environment and Society
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C-1
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Dr.Kohmei Halada (NIMS), Umezawa (Yokohama National Univ.), Prof.Dr.T.G.Gutowski (MIT), Dr. F. Simon (BAM), D.Xiao (Sichuan Union Univ.), Dr.M.K.Han (KITEC) Dr.B.de Beneditti (Poritech. Torino) | Materials of green environmental profile, Materials of higher resource productivity, Materials of higher recyclability, Materials without hazardous substances, Materials for the environment, Materials for Eco-design andLife-cycle Engineering, Nano-materials' technology for the environment | |
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C-2
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Masahiro Yoshimura (Tokyo Inst. Tech.), Jay A. Switzer (Univ. Missouri-Rolla), Richard E. Riman (Rutgers Univ.), Kiyoshi Okada (Tokyo Inst. Tech.), Yasuro Ikuma (Kanagawa Inst. Tech.,) | Direct formation of films and shaped materials, Fine powders, Soft chemistry and chemical route, Biomimetic, Self-assembly, Templating, Electrochemical films, Thin films, Sol-gel, Hydrothermal, Solution-processing, Environmentally friendly process, Patterning, Ceramic materials | |
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C-3
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Prof. T. Suda (Polytechnic Univ.), Prof. K. Kakishita (Polytechnic Univ. kakisita@uitec.ac.jp), Dr. T. Okabe(Ind. Res. Inst. of Aomori Pref.), Prof. M. Otsuka (Shibaura Inst. of Tech.), Prof. M. Miki (Himeji Inst. of Tech.) | Wood-Based Materials/ Paper/ Extraction/ Woodceramics/Composites/ Derivatives/ Liquefying/Modification/ Preservation/ Residential Use/Environmental/ Ecomaterial/Recycling/ Functional Materials etc. | |
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C-4
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Prof. K. Okamoto, Prof. H. Kita, Prof. N. Nakayama, Prof. S. Yamamoto, Prof. N. Oshima, Prof. M. Higa), Prof. K. Ioku (Yamaguchi Univ.) |
Materials for Environment/ Materials in Medicine/ Materials in Welfare/ Intelligent Materials/ Materials for Biology/ Biomimetic Processing/ Hybrid Materials/ Self-repairability | |
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C-5
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Kazuhito Hashimoto (RCAST, The Univ. of Tokyo) | TiO2 is an excellent photocatalyst, with high oxidation power and photo-induced superhydrophilicity. It has been developed for aiming at practical applications and put into practical use so far. Creation of other photoca talytic materials is required, including TiO2. This symposium covers such aresearch, processing technique, development and application of TiO2 photocatalyst, including self-cleaning, anti-bacterial, water purification, and airpurfication. It also covers a topic of water splitting | |
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C-6
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Advanced Thermoelectric Materials for
Environment-Friendly Energy Systems
[PDF]/[HTML] |
Prof. K. Koumoto (Nagoya Univ.), Prof. M. Ohtaki (Kyushu Univ.), Prof. I. Terasaki (Waseda Univ.) | Environment-Friendly TE Materials/ Oxide Thermoelectrics/ Skutterudites/ Clathrates/ PGEC/ Rattling Semiconductors/ Low-dimensional Crystal/Structures/ Quasicrystals/ Correlated Electron Systems/Heavy Fermions/ Nanostructured Materials/ Superlattice Thermoelectrics/ Mechanical Alloyng/ Microstructure Control/Heat Recovery Power Generation/ Thermoelectric Modules/Peltier Microcoolers/ Low-temperature Applications |
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C-7
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Prof. K. Miyake (Saitama Univ.), Dr. Y. Maeda (Osaka Prefecture Univ.), Dr. H. Tatsuoka (Shizuoka Univ.), Dr. Y. Makita (AIST), Prof. K. Homewood (Univ. of Surrey) | Semiconducting silicides/ Ecomaterials/ Ecoelectronics materials/ Resource problem/ d-electron correlated semiconductors/ Strain lattice semiconductors/ Optoelectronics semiconductors/ Infrared materials/ Solar cell/ Photovoltaic materials | |
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C-8
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Prof. M. Akashi (Kagoshima Univ.), Prof. Y. Suda (Kagoshima Univ.), Prof. T. Aoyagi (Kagoshima Univ.), Dr. T. Taguchi (AIST), Dr. H. Ohgushi (AIST) | Nano-therapy, Nano-diagnostics, Self-Organization, Self-assembly, Bioceramics, Medical devices, Medical Field | |
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C-9
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Dr. J. Tanaka (NIMS), Dr. K.@Yamashita (Tokyo Medical Dental Univ.), Dr. H. Kobayashi (NIMS) | Nano-therapy, Nano-diagnostics, Self-Organization, Self-assembly, Bioceramics, Medical devices, Medical Field |
Category D: Modeling, Fabrication and Processing of Advanced Materials with Novel Performance
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D-1
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Shuichi Miyazaki(Univ. of Tsukuba,), Norio Shinya (National Institute for Materials Science) | This symposium focuses on topics related to characterization, processing, manufacturing, analysis, design and applications of smart materials, smart composites, smart structures and smart systems. Papers are solicited on the following smart materials and systems: (a) Shape memory, piezoelectric,ferroelectric and ferromagnetic materials. (b) New sensor, actuator and intelligent materials. (c) Smart material composites. (d) Smart adaptive materials and systems. (e) MEMS devices utilizing smart materials. (f) Biomedical devices utilizing smart materials. (g) New devices and systemsutilizing smart materials both in engineering and medical fields | |
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D-2
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Prof. T. Seki (Nagoya Univ.), Prof. T. Kato (Univ. Tokyo), Prof. T. Kinoshita (Nagoya Inst. Tech.), Prof. T. Okubo (Univ. Tokyo), Prof. H. Tagaya (Yamagata Univ.) | Self-assembled Monolayers/ Organized Molecular Films/ Supramolecules/ Liquid Crystals/ Organic-inorganic Composite Materials/ Nano-sturctures and spaces/ Meso-structures/ Hierarchical Structures/ Hydrogen Bonding/ Soft Materials/ Liquid Crystals/ Oriented Materials/ Optical Functions/ Electronic Functions/ Chemical Functions/ Biological Functions | |
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D-3
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Materials for Membrane Separation
[PDF]/[HTML] |
S. Nakao (Univ. of Tokyo,), T. Tsuru (Hiroshima Univ.), H. Matsuyama (Kyoto Inst. Tech.) | Polymeric Membranes/Inorganic Membranes/Organic and Inorganic Hybrid Membranes/Modeling for Membrane Transport/Modeling for Membrane Formation |
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D-4
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Prof. K. Kitazawa (JST), Dr. T. Ishigaki (NIMS,), Dr. Y. Sakka (NIMS), Dr. F. Ikazaki (AIST) | Phenomena under high magnetic field/ Plasma reaction/ Micro-wave reaction/Sonochemical reaction/ Mechanochemical reaction, Mechanical alloying/ Crystal growth under strain field/ Electrophoretic deposition, Electrochemical deposition/ Phenomena under electric field/New materials processing through application of external energy. | |
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D-5
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Bulk Glassy Alloys
[PDF]/[HTML] |
Prof. A. Inoue (IMR, Tohoku Univ.), Dr. M. Imafuku (Nippon Steel Corporation,), | Bulk Glassy Alloys, Supercooled Liquid, Amorphous
Alloys, Glassy Phase, Nano-crystalline Phase Alloys, Nano-quasicrystalline
Phase Alloys, Super-fine-structure Alloys, Glass-forming Ability, Glass
Transition, Solidification, Devitrification Behavior, Crystallization Behavior,
Viscous Flow, Super-precise-shape Processing, Near-net-shape Processing,
High Strength Materials, High Corrosion Resistance Materials, Soft Magnet, Hard Magnet |
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D-6
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Advanced Structural Metals
[PDF]/[HTML] |
Prof. A. Azushima (Yokohama National Univ.), Dr. K. Nagai (NIMS), Dr. N. Tsuji (Osaka Univ.), Dr. O. Umezawa (Yokohama national Univ.) | Strength Metal, Ultra Fine Grained Metal, Fatigue
Strength, Fracture, Creep Resistance, Welding, Corrosion, Formability, Machinability |
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D-7
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Mechanical Properties of Ceramics and
Ceramic Matrix Composites
[PDF]/[HTML] |
Yohtaro Matsuo (Tokyo Inst. Tech., ), S.J.Kang (KAIST, Korea) | Structural ceramic, Ceramic Matrix Composites, High-performance ceramic fiber, Mechanical properties related to interface structure, Mechanical properties of thin films, Mechanical properties of small members, High-temperature strength, Creep, Plastic deformation, Fracture toughness, fatigue, Fracture statistics, Elastic wave , Tribology, nano-indentation, Non-destructive inspection, Fracture physics, Fracto-emission, Molecular dynamics simulation |
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D-8
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Prof. Y. Watanabe (National Defense Academy,), Prof. K. Komeya (Yokohama National Univ.), Prof. H. Kimura (National Defense Academy), A/Prof. K. A. Khor (Nanyang Technological Univ., Singapore). | Bioactive Coatings/ Cellular Materials/ Innovative Processing/ Materials for Fuel Cells/ Metal and Ceramic Foams/ Porous Materials/ Powder Processing Science/ Rapid Sintering Technology/ Surface Modification Technology/ Thin films (CVD, PVD, sol-gel)/ Spark Plasma Sintering Technology | |
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D-9
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K. Tsuruta (Okayama Univ.),T. Hasebe (Doshisha Univ.),T. Hoshi (Univ. Tokyo),M. Matsuura (Yamaguchi Univ.),A. Nakano (Univ. Southern California),S. Ogata (Osaka Univ.),S. Ogata (Yamaguchi Univ.),S. Takami (Tohoku Univ.) | Large-scale materials simulation (ab initio methods/density- functional theory, molecular-dynamics, Monte Carlo, finite-element methods)/ Multiscale modeling (hybrid methods, order-N methods, multiresolution algorithms)/ Parallel architecturesEalgorithms, GRID/ NanomaterialsEdevices (sintering, graingrowth, fracture, environment effects, self organization, interfacial effects) | |
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D-10
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Yoshiyuki Kawazoe (IMR, Tohoku univ.) , Tamio Ikeshoji (AIST), Masanori Kohyama (AIST), Satoshi Watanabe (Univ. Tokyo) , Isao Tanaka (Kyoto Univ.), Toshiyuki Koyama (NIMS), Kaoru Ohno (Yokohama Nat. Univ.) , Makoto Yoneya (ERATO), Koichi Kakimoto (Kyushu Univ.) | Schemes:band calculation, molecular orbital
calculation,ab initio/classical molecular dynamics, Monte Carlo, finite
element method, phase field method, thermodynamic phase calculation, Green's
function, many body theorem, etc. Properties:electronic, magnetic, optical,
chemical, mechanical, and thermal properties, transport, spintronics, vibrations,
catalysis, phase diagrams, etc. Structures:solids, amorphous, liquids, defects,
surface and interfaces, nanostructures, etc. Processes:nucleation, crystal
growth, self-organization, phase transition, deposition, fabrication, etc.
Materials:semiconductors, metals, ceramics, polymers, organic materials,
bio materials, fullerenes, nanotubes, small particles and clusters, advanced
and future materials, etc. Observations:TEM, STM, AFM, EELS, etc. |
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D-11
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