Researchers

IWASAKI Mitsunobu

IWASAKI Mitsunobu
Professor
Faculty Department of Applied Chemistry / Graduate School of Science and Engineering
Researchmap https://researchmap.jp/read0185903

Education and Career

Education

  • - 1993 , Tokyo Institute of Technology, Graduate School, Division of Science and Engineering,
  • - 1993 , Tokyo Institute of Technology, Science of Engineering,

Research Activities

Research Areas

  • Nanotechnology/Materials, Material fabrication and microstructure control
  • Nanotechnology/Materials, Inorganic materials
  • Nanotechnology/Materials, Inorganic compounds/materials chemistry
  • Nanotechnology/Materials, Nanobioscience
  • Nanotechnology/Materials, Nanomaterials

Research Interests

Inorganic Materials Chemistry

Published Papers

  1. Alのプラズマアノード酸化におけるヘキサメチレンテトラミン代替えアミンの影響
    寺西一明; 人見直樹; 徳安善太郎; 岩崎光伸
    材料技術  34  (6)  , 177-182, Dec. 2016 
  2. Newly Developed Biocompatible Material: Dispersible Titanium-Doped Hydroxyapatite Nanoparticles Suitable for Antibacterial Coating on Intravascular Catheters
    Tsutomu Furuzono; Masatoshi Okazaki; Yoshinao Azuma; Mitsunobu Iwasaki; Yasumichi Kogai; Yoshiki Sawa
    Contributions to Nephrology  189  , 144-152, 2016  , Refereed
  3. 火花放電アノード酸化によるZrO2/MTiO3(M = Ca, Sr, Ba)マイクロパターニング膜の作製
    岩崎 光伸
    材料技術  33  (3)  , 43-49, Jun. 2015  , Refereed

MORE

Books etc

  1. 技術情報協会, 光学用透明樹脂の高屈折率化,低複屈折率化技術 , 岩崎 光伸; 技術情報協会 , May. 2009

Conference Activities & Talks

  1. TaON材料の色特性および新規合成方法の検討 , 佐々木 洋; 徳安善太郎; 村島淳; 岩崎 光伸; 伊藤征司郎 , 2008年度材料技術研究協会討論会 , Dec. 2008
  2. 液体アンモニア法を用いたTi系窒化物・酸窒化物材料合成の検討 , 佐々木 洋; 尾野陽一; 伊藤勝久; 林 修平; 岩崎 光伸; 伊藤征司郎 , 2008年度材料技術研究協会討論会 , Dec. 2008
  3. 無溶媒エポキシ化反応に適したアパタイト系固体分散相材料の性質 , 佐々木 洋; 桃井 香奈; 射手矢 勝真; 奥田 雅史; 岩崎 光伸; 伊藤 征司郎; 市原 潤子 , 2006年度材料技術研究協会討論会 , Dec. 2006

MORE

MISC

  1. Fine Patterning of Titanium Oxide Film Loaded with Hydroxyapatite Using Photopatterning and Anodic Oxidation , Yasuhiro Tamagawa; Yuh Yatsuo; Hiroshi Horikawa; Mitsunobu Iwasaki , MATERIALS TRANSACTIONS , 51 , 12 , 2225 , 2229 , Dec. 2010
    Summary:The patterned titania gel film fabricated by UV-irradiation through a mask and leaching was anodized by direct current electrolysis or pulse electrolysis. The patterning prepared through the two electrolyses was quite contrasted in that masking part and unmasking part was anodized in direct electrolysis and in pulse electrolysis, respectively. In addition, the oxide film thickness obtained using pulse electrolysis was thinner than that using direct current electrolysis. Thus, a combination of the photopatterning and pulse electrolysis made it possible to fabricate hydroxyapatite (HAp)-fixed and thinner titanium oxide film with fine pattern on titanium plate. [doi:10.2320/matertrans.M2010155]
  2. New Development of Titanium Wire Ball as Vertebra Substitute , Akira Shibata; Yasuhiro Tamagawa; Hiroshi Horikawa; Mitsunobu Iwasaki; Kohji Matsuzaki; Chiaki Hamanishi , MATERIALS TRANSACTIONS , 51 , 10 , 1923 , 1926 , Oct. 2010
    Summary:Fabrication of a new ball shaped titanium material for vertebral compression fracture treatment has been studied using micro arc oxidation in an electrolyte containing hydroxyapatite (HAp) To prevent microstructural disturbance on the surface ethanol was used as a co solvent The material thus obtained was found to have high porosity with many micropores fixed HAp particles on the surface and elasticity comparable to cancellous bone Furthermore it was demonstrated that the materials have osteoconductivity and the elasticity was kept under cycled stress These indicate that they can be new bone filling materials for percutaneous vertebroplasty (PV) [doi 10 2320/matertrans M2010083]
  3. Synthesis of nanometer-sized YAG: Ce[3+] phosphors by environmentally friendly method , 松井良和; 岩崎光伸; 朴元圭 , Material technology , 28 , 1 , 27 , 31 , 2010

MORE

Awards & Honors

  1. 2008, 表面技術協会優秀講演賞
  2. 2008, 表面技術協会学術奨励講演賞
  3. 2008, 材料技術協会論文賞

MORE

Research Grants & Projects

  1. Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research, Fabrication of anodized titanium artificial bone induced osteoblast cells , Kinki University
  2. Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research, Deperopment of solvent-free reaction process using solid desperse , Kinki University
  3. Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research, Solvent-free epoxidation using nitrides and oxinitrides as solid-disperse-phase , KINKI UNIVERSITY

MORE