研究業績

鹿児島大学門川研スタート(2004年4月)以降の業績

査読付き学術論文


  1. H. Izawa, Y. Kaneko, and J. Kadokawa, “Apparent production of enzymatically synthesized amylose in DMSO by means of calcium alginate hydrogel beads/DMSO systemJournal of Carbohydrate Chemistry, 印刷準備中.

  2. N. Iwakiri, T. Nishikawa, Y. Kaneko, and J. Kadokawa, “Synthesis of amphiphilic polysiloxanes and their properties for formation of nano-aggregatesColloid and Polymer Science, 印刷準備中.

  3. Takegawa, M. Murakami, Y. Kaneko, and J. Kadokawa, “A facile preparation of composites composed of cellulose and polymeric ionic liquids by in site polymerization of ionic liquids having acrylate groups” Polymer Composites, 印刷準備中.

  4. Y. Kaneko, K. Beppu, T. Kyutoku, and J. Kadokawa, “Selectivity and priority on inclusion of amylose toward guest polyethers and polyesters in vine-twining polymerization” Polymer Journal, 印刷準備中.

  5. Y. Sasaki, Y. Kaneko, J. Kadokawa, “Chemoenzymatic synthesis of amylose-grafted polyacetylene by polymer reaction manner and its conversion into organogel with DMSO by cross-linking” Polymer Bulletin, 印刷準備中.

  6. Y. Omagari, S. Matsuda, Y. Kaneko, and J. Kadokawa, “Chemoenzymatic synthesis of amylose-grafted cellulose” Macromolecular Bioscience, 印刷準備中.

  7. K. Prasad, Y. Kaneko, and J. Kadokawa, “Novel gelling system of k-, i, and l-carrageenans and their composite gels with cellulose using ionic liquid” Macromolecular Bioscience, 印刷準備中.

  8. S. Yamazaki, A. Takegawa, Y. Kaneko, J. Kadokawa, M. Yamagata, M. Ishikawa, “An acidic cellulose-chitin hybrid gel as novel electrolyte for an electric double layer capacitor” Electrochemistry Communications, 11, 68-70 (2008).

  9. J. Kadokawa, M. Suenaga, and Y. Kaneko, “Intramolecular fluorescence resonance energy-transfer of fluorescein derivative; phenyl and styryl p-disubstituted fluorescein” Chemistry Letters, 37, 1232-1233 (2008).

  10. M. Nawaji, H. Izawa, Y. Kaneko, and J. Kadokawa, “Enzymatic a-glucosaminylation of maltooligosaccharides catalyzed by phosphorylase” Carbohydrate Research, 343, 2692-2696 (2008).

  11. M. Nawaji, H. Izawa, Y. Kaneko, and J. Kadokawa, “Enzymatic synthesis of a-D-xylosylated maltooligosaccharides by phosphorylase-catalyzed xylosylation” Journal of Carbohydrate Chemistry, 27, 214-222 (2008).

  12. Y. Kaneko, Y. Saito, A. Nakaya, J. Kadokawa, and H. Tagaya, “Preparation of inclusion complexes composed of amylose and strongly hydrophobic polyesters in parallel enzymatic polymerization system” Macromolecules, 41, 5665-5670 (2008).

  13. J. Kadokawa, M. Suenaga, and Y. Kaneko, “Synthesis of poly(p-phenylene) having phthalic anhydride moieties in the main-chain and its conversion into fluorescein derivative” Macromolecules, 41, 3750-3754 (2008).

  14. J. Kadokawa, M. Murakami, and Y. Kaneko, “A facile preparation of gel materials from a solution of cellulose in ionic liquid” Carbohydrate Research, 343, 769-772 (2008).

  15. J. Kadokawa, D. Shinohara, A. Takegawa, M. Murakami, Y. Kaneko, and T. Matsuo, “Preparation of tannin gel by enzyme-mimetic reaction of condensed tannin without use of crosslinking agent” Colloid and Polymer Science, 286, 481-485 (2008).

  16. Y. Kaneko, K. Beppu, and J. Kadokawa, “Preparation of amylose/polycarbonate inclusion complexes by means of vine-twining polymerization” Macromolecular Chemistry and Physics, 209, 1037-1042 (2008).

  17. J. Kadokawa, Y. Nakamura, Y. Sasaki, Y. Kaneko, and T. Nishikawa, “Chemoenzymatic synthesis of amylose-grafted polyacetylenes” Polymer Bulletin, 60, 57-68 (2008).

  18. Y. Kaneko, N. Iwakiri, S. Sato, and J. Kadokawa, “Stereospecific free-radical polymerization of methacrylic acid calcium salt for facile preparation of isotactic-rich polymers” Macromolecules, 41, 489-492 (2008).

  19. J. Kadokawa, M. Murakami, and Y. Kaneko, “A facile method for preparation of composites composed of cellulose and a polystyrene-type polymeric ionic liquid using a polymerizable ionic liquid” Composites Science and Technology, 68, 493-498 (2008).

  20. Y. Kaneko, S. Matsuda, and J. Kadokawa, “Chemoenzymatic syntheses of amylose-grafted chitin and chitosan” Biomacromolecules, 8, 3959-3964 (2007).

  21. Y. Kaneko, K. Beppu, and J. Kadokawa, “Amylose selectively includes one from a mixture of two resemblant polyethers in vine-twining polymerization” Biomacromolecules, 8, 2983-2985 (2007).

  22. Y. Yamashita, Y. Kaneko, and J. Kadokawa, “Synthesis of poly(p-phenylene)s having alternating sugar and alkyl substituents by Suzuki coupling polymerization and evaluation of their main-chain conformations” European Polymer Journal, 43, 3795-3806 (2007).

  23. Y. Kaneko, K. Noguchi, and J. Kadokawa, “Synthesis of temperature-responsive organic-inorganic hybrid hydrogel by free-radical polymerization of methacrylamide using water-soluble rigid polysiloxane having acryamido side-chains as a cross-linking agent” Polymer Journal, 39, 1078-1081 (2007).

  24. K. Beppu, Y. Kaneko, J. Kadokawa, H. Mori, and T. Nishikawa, “Synthesis of sugar-polysiloxane hybrids having rigid main-chains and formation of their nano aggregates” Polymer Journal, 39, 1065-1070 (2007).

  25. M. Murakami, Y. Kaneko, and J. Kadokawa, “Preparation of cellulose-polymerized ionic liquid composite by in-situ polymerization of polymerizable ionic liquid in cellulose-dissolving solution” Carbohydrate Polymers, 69, 378-381 (2007).

  26. S. Matsuda, Y. Kaneko, and J. Kadokawa, “Chemoenzymatic synthesis of amylose-grafted chitosan” Macromolecular Rapid Communications, 28, 863-867 (2007).

  27. Y. Yamashita, Y. Kaneko, and J. Kadokawa, “Synthesis of glucose-substituted poly(p-phenylene)s with twisted main-chain in one direction due to induced axial chirality” Polymer Bulletin, 58, 635-643 (2007).

  28. M. Suenaga, Y. Kaneko, J. Kadokawa, T. Nishikawa, H. Mori, and M. Tabata, “Amphiphilic poly(N-propargylamide) with galactose and lauryloyl groups: synthesis and properties” Macromolecular Bioscience, 6, 1009-1018 (2006).

  29. Y. Kaneko and J. Kadokawa, “Synthesis of nanostructured bio-related materials by hybridization of synthetic polymers with polysaccharides or saccharide residues” Journal of Biomaterials Science, Polymer Edition, 17, 1269-1284 (2006).

  30. Y. Kaneko, S. Sato, J. Kadokawa, and N. Iyi, “Synthesis of organic-inorganic hybrid hydrogels using rodlike polysiloxane having acrylamido groups as a new cross-linking agent” Journal of Materials Chemistry, 16, 1746-1750 (2006).

  31. J. Kadokawa, K. Tawa, M. Suenaga, Y. Kaneko, and M. Tabata, “Polymerization and copolymerization of a new N-propargylamide monomer having a pendant galactose residue to produce sugar-carrying poly(N-propargylamdie)s” Journal of Macromolecular Science Part A, Pure and Applied Chemistry, 43, 1179-1187 (2006).

  32. Y. Kaneko, J. Kadokawa, M. Setoguchi, and N. Iyi, “Synthesis of rodlike polysiloxane containing polyol moieties derived from glucose with regularly controlled higher-ordered structure” Polymer, 46, 8905-8907 (2005).

  33. Y. Kaneko and J. Kadokawa,“Vine-twining polymerization: a new preparation method for well-defined supramolecules composed of amylose and synthetic polymers” The Chemical Record, 5, 36-46 (2005).


総説、解説、書籍

  1. 金子 芳郎、門川 淳一、“有機資源としての生体高分子”日本ゴム協会誌, vol.81, no.3, pp.112-117, 2008年3月.
  2. 金子 芳郎、門川 淳一、“重合性イオン液体を用いるセルロースコンポジットの創製”化学工業, vol.59, no.3,pp.60-65, 2008年3月.
  3. 金子 芳郎、門川 淳一、井伊 伸夫、“水溶性シリカ系材料の合成と機能性材料への応用”ケイ素化合物の選定と最適利用技術 応用事例集【下巻】、(株)技術情報協会編、(2006年10月)、pp.79-90.
  4. 金子 芳郎、“規則的なナノ高次構造を有するロッド状ポリシロキサンの合成 ~シロキサン結合(Si-O)骨格材料の新たな可能性~”化学と工業,59巻・2号(2006年2月),pp.132-135.
  5. 門川 淳一、“アニオン性多糖存在下でのカチオン性モノマーの重合を利用したハイブリッド化合物の創製”,Cellulose Communications,12巻・4号(2005年12月),pp.164-169. 
  6. 門川 淳一、“つる巻き重合”,高分子,53巻・8号(2004年8月),pp.591-594.


Last updated on April 13, 2009