北陸先端科学技術大学院大学 [JAIST] - 研究者総覧
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金子 達雄 (カネコ タツオ) 教授
マテリアルサイエンス系、環境・エネルギー領域

180件中1-20件目

  • 1. 天然由来多糖の界面配向とマクロ空間分割現象,
    桶葭 興資, 岡島 麻衣子, 金子 達雄,
    BIO INDUSTRY,35,5,27-35,2018
  • 2. Formation of polysaccharide membranes by splitting of evaporative air-LC interface,
    Kosuke Okeyoshi*, Gargi Joshi, Maiko K. Okajima, Tatsuo Kaneko*,
    Advanced Materials Interfaces 5,1701219,2018
    Selected as Back Cover Picture.
  • 3. Robustification of ITO nanolayer by surface-functionalization of transparent biopolyimide substrates,D.Sumant, T.Kaneko,J. Appl. Polym. Sci.,,135,40,46709,2018
  • 4. Polypeptide gels incorporating the exotic functional aromatic amino acid 4-amino-L-phenylalanine,T.Kaneko, M. A. Ali, I.Captain, P.Perlin, T. J. Deming,Polym. Chem.,9,3466-3472,2018
  • 5. 創傷被覆材としてのサクランハイドロゲルの有効利用、,本山敬一、東大志、岡島麻衣子、金子達雄、有馬英俊,YAKUGAKU ZASSHI,138,4,517-520,2018
  • 6. 究極のエコマイクロリアクタが生産する超液晶性多糖類,金子達雄、岡島麻衣子,YAKUGAKU ZASSHI,138,4,489-496,2018
  • 7. スイゼンジノリ由来多糖サクランの魅力,有馬英俊、金子達雄,YAKUGAKU ZASSHI,138,4,487-488,2018
  • 8. Effect of biopolyimide molecular design on their silica hybrids thermo-mechanical, optical and electrical properties2,D. Sumant, S. Sakamoto, S. Kato, T. Mitsumata, T. Kaneko,RSC Adv.,8,14009-14016,2018
  • 9. Molecular design of soluble biopolyimide with high rigidity,D. Sumant, T. Kaneko,Polymers,10,4,368,2018
  • 10. Surface-selective control of cell-orientation on cyanobacterial liquid crystalline gels,S. Sornkamnerd, M.K. Okajima, K.Matsumura, T. Kaneko,,ACS Omega,3,6,6554-6559,2018
  • 11. Truxillic and truxinic acid-based, bio-derived diesters as potent internal donor in Ziegler-Natta catalyst for propylene polymerization,,A.Matta, P.Chammingkwan, B.K.Singh, M.Terano, T.Kaneko, T.Taniike,,Appl. Catal. A, Gen.,554,80-87,2018
  • 12. Novel poly-condensed biopolyamide generated from biomass-derived 4-aminohydrocinnamic acid,Y. Kawasaki, N. Aniruddha, H.Minakawa, S. Masuo, T. Kaneko, N. Takaya,Appl. Microbiol. Biotechnol,102,2,631-639,2018
  • 13. Simultaneous hardening/ductilizing effects of cryogenic nanohybridization of biopolyamides with montmorillonites,Md. A. Ali, N. Tandon, T. Kaneko,ACS Omega,2,12,9103-9108,2017
  • 14. Simultaneous hardening/ductilizing effects of cryogenic nanohybridization of biopolyamides with montmorillonites,Md. A. Ali, N. Tandon, T. Kaneko,ACS Omega,2,12,9103-9108,2017
  • 15. Fully Bio-based Aromatic Polyimide using 4-Aminocinnamic Acid and Mellophanic Dianhydride as Bio-derived Monomers,Kenji Takada, Satoru Karikome, Sumant Dwivedi, and Tatsuo Kaneko,ECS Transactions, in press
  • 16. 芳香族バイオ分子を利用した高性能高分子材料の開発,高田健司、金子達雄,アグリバイオ,2,9,30(860)-34(864),2018
  • 17. 微生物バイオマスを用いたスーパーエンジニアリングプラスチックの開発,高田健司、金子達雄,工業材料 (特集:透明ポリマー材料と次世代光技術)、66(4)、50-55(2018),66,4,50-55,2018
  • 18. 環境適応型、高性能プラスチックの開発-微生物を利用した高耐熱バイオプラスチック,高田健司、金子達雄,Web Journal,188,24,6-9,208
  • 19. Switchable release nano-reservoirs for co-delivery of drugs via a facile micelle-hydrogel composite.,Patel M., Kaneko T., Matsumura K,J. Mater. Chem. B.,5,3488-3497,2017
  • 20. Anti-allergic and Profilaggrin (ProFLG)-mRNA Expression Modulatory Effects of Sacran,N.R.Ngatu, K.Motoyama, Y.Nishimura, M.K.Okajima, R.Hirota, T.Higashi, S.Lee, H.Arima, M.Ikeda, S.Nojima, T.Kaneko,,Int. J. Biol. Macromol. in press.,2017

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