Department of Applied Science for Electronics and Materials, Kyushu University

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Molecular material science course

In this course, material design, preparation and research on device physicality with molecular materials as a target, which is a major candidate for creation of new functional materials/device are conducted, and fostering of researchers/engineers who can perform the development of new materials and devices is aimed.

Organic Materials Chemistry Laboratory

[Keywords] organic ultrathin film, high molecular thin film, self-organization single-molecular film, emitting material, conductive material, photoelectric conversion material, electroluminescence, emitting display, organic transistor

[Research outline] Aiming to create of new optical function/electronic function materials using characteristics of organic compounds, consistent experiment research is tackled for molecular design, synthesis, thin-film formation, physical evaluation, functional device producing and functional evaluation of organic compounds and high molecular compounds. Further, an aggregate structure of organic materials, a base of functional material/device research and physical research for solving the association of optical/electronic physicality are also concentrated. Research on an organic electroluminescence material is resulted in the research that the laboratory is proud to the world.

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  • Associate Professor /Katsuhiko FujitaAssociate Professor /Katsuhiko Fujita

Device Materials Laboratory

[Keywords] synthesis and application of CNF and fullerene, nano‐hybrid materials, petroleum desulfurization/denitrogenation, DeSOx, DeNOx, high-performance battery and capacitor materials, low-temperature fuel cell, high utilizations of coal (gasification and coke), carbon fiber and activated carbon

[Research outline] Following 4 points are proceeding as main themes for“Functional carbon material laboratory.”

1. Basic researches of a high-functional/high-performance carbon materials (Basic carbon engineering)
Creation/improvement of applied physical properties by adjustment of nano-structural units and new control methods

2. Realization of novel carbon nano-hybrid materials using nanotechnology
Cultivation of large-scale applications through physical improvements of existing high-functional materials

3. Researches on battery materials, super capacitor materials, electrical desalination materials, de-SOx/de-NOx, and adsorption heat pump using advanced functional carbon materials

4. Seeking novel functionalities for novel carbon materials

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  • Professor / Seong-Ho YoonProfessor / Seong-Ho Yoon
  • Associate Professor /Jin MiyawakiAssociate Professor / Jin Miyawaki
  • Assistant Professor /Koji NakabayashiAssistant Professor / Koji Nakabayashi
3-D Conceptual Structure of Carbon Nanofibers: Assembly of Rod-shaped Primary Units
3-D Conceptual Structure of Carbon Nanofibers: Assembly of Rod-shaped Primary Units