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4. Advanced Nanocarbon Technology

Advanced Nanocarbon Technology

Outline of Chair

Research Fields

1. Electronic and Optical Properties of Dielectric Thin Films.
2. Surface and interface properties of insulating and semiconducting polymer materials, and their applications as optical and electronic functional materials
3. Electronic Properties of Compound Semiconductors and their Heterostructures
4. Electric properties of piezoelectric materials
5. Sensor Devices Utilizing Quartz Resonator
6. Development of Magnetic Thin Film Devices, and Applications to High Frequency Power
   Conversion and Information Communication Systems
7. Magnetic Materials and Their Applications to Spintronics
8. Preparation and Application of Semiconducting Thin Films
9. Fabrication and device application of semiconductor and insulator film materials
10. Electron Transport Properties and Application to Electronic Devices and Energy Engineering on Advanced Materials
11. Basic Properties of Nanocarbons and Their Electrochemical Applications
12. Fundamentals and practical application of frontier carbon materials for enegy storage devices
13. Clarification of new functionalities of advanced electronic materials via structural and electronic state analysis using computational and microscopic methods
14. Electrochemical Fabvication of Functional Materials
15. Processing Technologies of Nano Carbon Composites and Forming of Mechanical Microdevices
16. To investigate the dynamic behavior of linear and nonlinear solids, research and education are carried out with emphasis on computational approaches.
17. Precision Shape Measurement of 3-D surface
18. For the purpose of fostering advanced but fundamental scholarship and profound expert
    knowledge, this seminar will be held to carry out exercises concerning the field directly
    related to the tasks for study.
19. In order to make students participate in seminars with attendance of teaching staff and
    students of the different but related major fields of study invited from the other chairs or other fields so that respective own research can be developed to the other fields other than theparticular major field, this seminar will be held to foster abilities to extend to develop or　challenge to the other field.
20. Under the Chief Guidance Teaching Staff and Vise-Guidance Teaching Staffs, to actively
    make research on the theme of study which is decided through discussion with the Chief
    Guidance Teaching Staff and to make publication (doctoral thesis).
21. Students may be trained practically in any public agency and business enterprise if effectiveness on education is recognized.

Teaching and Research Faculty

Eiji Itoh 　　Professor 　　Microelectronic Device Technology

Surface and interface properties of insulating and semiconducting polymer materials, and their applications as optical and electronic functional materials

Yoshio Hashimoto 　　Professor 　　Microelectronic Device Technology

Electronic Properties of Compound Semiconductors and their Heterostructures

Noriko Bamba 　　Associate Professor 　　Microelectronic Device Technology

Electric properties of piezoelectric materials

MYO THAN HTAY 　　Assistant Professor 　　Microelectronic Device Technology

Synthesis and Application of Oxide Based Compound Semiconductors for Optoelectronic Devices

Hideaki Ito 　　Professor 　　Microelectronic Device Technology

Sensor Devices Utilizing Quartz Resonator

Toshiro Sato 　　Professor 　　Microelectronic Device Technology, Precision Engineering Course for Working Student

Magnetic materials and devices for high frequency power conversion and their application to power electronics

Makoto Sonehara 　　Associate Professor 　　Microelectronic Device Technology

Magnetic materials and devices for high frequency power conversion and their application to power electronics

Xiaoxi Liu 　　Professor 　　Microelectronic Device Technology

Magnetic Materials and Their Applications to Spintronics

Toshinori Taishi 　　Associate Professor 　　Microelectronic Device Technology

Growth, evaluations and applications of bulk single crystals

Katsumi Kaneko 　　Distinguished Professor 　　Nanocarbon Technology

Intrinsic functions of carbon-based nanoporous materials for molecules and ions.

Hiroyuki Muramatsu 　　Assistant Professor 　　Nanocarbon Technology

Preparation, characterization and electrical application of nano-carbon

Izumi Ichinose 　　Visiting Professor 　　Nanocarbon Technology

Design of separation functional materials and their application to water treatment systems

Sadaki Samitsu 　　Visiting Professor 　　Nanocarbon Technology

Micro-structure control and performance evaluation of separation functional materials

Yoshihisa Fujii 　　Visiting Professor 　　Nanocarbon Technology

Structure and physical property evaluation of carbon-based separation functional materials

Morinobu Endo 　　Distinguished Professor 　　Nanocarbon Technology

Electron Transport Properties and Application to Electronic Devices and Energy Engineering on Advanced Materials

Kenji Takeuchi 　　Associate Professor 　　Nanocarbon Technology

Structure Control and Characterizations of New Carbons and Their Applications

Takuya Hayashi 　　Professor 　　Nanocarbon Technology

Clarification of new functionalities of advanced electronic materials via structural and electronic state analysis using computational and microscopic methods

Susumu Arai 　　Professor 　　Nanocarbon Technology

Electrochemical Fabvication of Functional Materials

Kosuke Miyaji 　　Associate Professor 　　Nanocarbon Technology

Simulations on Scaled Semiconductor Devices and Low Power Circuit Techniques

Koichi Sugimoto 　　Professor 　　Mechanical Microdevice Engineering

Processing Technologies of Nano Carbon Composites and Forming of Mechanical Microdevices

Masaki Kameyama 　　Associate Professor 　　Mechanical Microdevice Engineering

Analysis, Optimum Design, Control, and Health Monitoring of Composite Structures

Masaomi Nishimura 　　Senior Assistant Professor 　　Mechanical Microdevice Engineering

Deformation Analysis on Solid and Composite Materials based on Molecular Dynamics Method

Hirohito Matsuoka 　　Associate Professor 　　Mechanical Microdevice Engineering

Precision Shape Measurement of 3-D surface

Hideki Takagi 　　Visiting Professor 　　Precision Engineering Course for Working Student

Fabrication Process of Metal, Ceramics, Nano-composite, and Thin-film Materials, and Their Application to Advanced Sensors and Devices

Katsuzo Okada 　　Adjunct Professor 　　Precision Engineering Course for Working Student

MEMS Process, Nano-inprint, Fine-precision Technologies, Micro-Thermofulid

Hiroshi Kashima 　　Visiting Professor 　　Precision Engineering Course for Working Student

MEMS Process, Nano-inprint, Fine-precision Technologies, Micro-Thermofulid

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