Researchers

MATSUI Hideo

MATSUI Hideo
Associate Professor
Faculty Department of Applied Chemistry / Graduate School of Science and Engineering
Researchmap https://researchmap.jp/read0076785

Education and Career

Education

  • - 1992 , Kindai University, Faculty of Engineering,
  • - 1992 , Kinki University, Faculty of Engineering,
  • - 1997 , Kindai University, 工学研究科,
  • - 1997 , Kinki University, Graduate School, Division of Engineering,

Academic & Professional Experience

  • 2000 - 2001 , Kindai University Molecular Engineering Institute
  • 2000 - 2001 , Kinki University, Molecular Engineering Institute
  • 2001 , - 近畿大学助手
  • 2001 , - Kinki University, Research Associate
  • 1998 - 1999 , 株式会社 関西新技術研究所
  • 1998 - 1999 , Kansai Research Institute

Research Activities

Research Areas

  • Manufacturing technology (mechanical, electrical/electronic, chemical engineering), Electronic devices and equipment
  • Nanotechnology/Materials, Synthetic organic chemistry

Research Interests

有機合成化学, Synthetic Organic Chemistry

MISC

  1. Syntheses and electronic behaviors of binary hybrid copolymers having phenylene-selenium, -nickel, and -strontium units , H Matsui; H Hasegawa; M Yoshihara , JOURNAL OF MACROMOLECULAR SCIENCE-PURE AND APPLIED CHEMISTRY , A42 , 7 , 869 , 876 , Jul. 2005
    Summary:Several binary hybrid copolymers having phenylene-selenium, -nickel, and -strontium units were synthesized, and their electronic behaviors were examined. UV-VIS and ESR spectral analyses and ab-initio calculations showed that an electron transfer from phenylene moiety to metals takes place and its ability vary by changing metals.
  2. Syntheses and electronic behaviors of binary hybrid copolymers having phenylene-selenium, -nickel, and -strontium units , H Matsui; H Hasegawa; M Yoshihara , JOURNAL OF MACROMOLECULAR SCIENCE-PURE AND APPLIED CHEMISTRY , A42 , 7 , 869 , 876 , Jul. 2005
    Summary:Several binary hybrid copolymers having phenylene-selenium, -nickel, and -strontium units were synthesized, and their electronic behaviors were examined. UV-VIS and ESR spectral analyses and ab-initio calculations showed that an electron transfer from phenylene moiety to metals takes place and its ability vary by changing metals.
  3. Synthesis and electronic behavior of a net-worked scandium-phenylene-yttrium ternary hybrid copolymer , H Matsui; T Kawahara; M Mishima; M Yoshihara , POLYMER JOURNAL , 37 , 9 , 656 , 660 , 2005
    Summary:A ternary, scandium-phenylene-yttrium hybrid copolymer was synthesized by initially reacting 1,4-hydroquinone with scandium isopropoxide below -45 degrees C followed by a second reaction with yttrium isopropoxide at room temperature. ESR spectral examinations and ab-initio calculations indicate that an electron transfer takes place initially from the phenylene group to the yttrium atom at a lower energy-level and then to the scandium atom at a higher energy-level, i.e. via two-step electron transportation.

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Research Grants & Projects

  1. 新規有機-無機複合材料の合成
  2. Synthesis of Novel Organic-Inorganic Hybrid Materials