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Selected Papers

  • A.Nag, M.A.Ali, H.Kawaguchi, S.Saito, Y.Kawasaki, S.Miyazaki, H.Kawamoto, D.T.N.Adi, K.Yoshihara, S.Masuo, Y.Katsuyama, A.Kondo, C.Ogino, N.Takaya, T.Kaneko, Y.Ohnishi, Ultrahigh Thermoresistant Lightweight Bioplastics Developed from Fermentation Products of Cellulosic Feedstock, Adv.Sus.Sys. 2020, 2000193 (2020)
    https://doi.org/10.1002/adsu.202000193
  • K.Budpud, K.Okeyoshi, M.Okajima, T.Kaneko, Vapor-sensitive materials from polysaccharide fibers with self-assembling twisted microstructures, Small, 16(29), 2001993 (2020).
    https://doi.org/10.1002/smll.202001993
  • S. Wang, D. Kaneko, M. Okajima, K. Yasaki, S. Tateyama, T. Kaneko, Hyperbranching Polycoumarates with Photofunctional Multiple Shape-Memory, Angew. Chem. Int. Ed. 52(42), 11143-11148 (2013).
    https://doi.org/10.1002/anie.201305647
  • M. ALI, S. Tateyama, Y. Oka, M. Okajima, D. Kaneko, T. Kaneko, High-performance Biopolyamides Derived from Itaconic Acid and Their Environmental Corrosion, Macromolecules, 46(10), 3719?3725 (2013).
    https://doi.org/10.1021/ma400395b
  • M. Chauzar, S. Tateyama, T. Ishikura, K. Matsumoto, D. Kaneko, K. Ebitani, T. Kaneko, Hydrotalcites catalyze the acidolysis polymerization of phenolic acid to create highly heat-resistant bioplastics, Adv. Funct. Mater. 22(16), 3438-3444 (2012)
    https://doi.org/10.1002/adfm.201200427
  • T.Kaneko, H.T.Tran, D.J.Shi, M.Akashi, Environmentally-Degradable, High-performance Plastics from Phenolic Phytomonomers, Nature Mater. 5(12), 966-970 (2006)
    https://doi.org/10.1038/nmat1778

2022

  • 315) Minakawa Hajime, Masuo Shunsuke, Takada Kenji, Kumakura Takuya, Katsuki Nozomi, Kaneko Tatsuo, Takaya Naoki, Fermentative production of 2-(4-aminophenyl)ethylamine to synthesize a novel heat-resistant biopolyurea, Bioscience, Biotechnology, and Biochemistry, in press
  • 314) Xianzhu Zhong, Aniruddha Nag, Jiabei Zhou, Kenji Takada, Fitri Adila Amat Yusof, Tetsu Mitsumata, Kenji Oqmhula, Kenta Hongo, Ryo Maezono, Tatsuo Kaneko, Stepwise copolymerization of polybenzimidazole for exhibiting low dielectric constant and ultrahigh heat resistance, RSC adv. In press
  • 313) T. D. Phan, G. Mizutani, Y. Li, K. Budpud, K. Okeyoshi, M. Okajima, T. Kaneko, Sum-frequency generation and scanning electron microscope studies on second-harmonic generation active structures of sacran aggregates, e-JSSNT, in press
  • 312) K. Budpud, K. Okeyoshi, M. Okajima, T. Kaneko, Super-moisturizing materials from morphological deformation of suprapolysaccharides, Macromol. Rapid Commun. in press
  • 311) Y.Funahashi, Y.Yoshinaka, K.Takada, T.Kaneko, Self-standing Nanomembranes of Super-Tough Plastics. Langmuir in press.
    https://pubs.acs.org/doi/10.1021/acs.langmuir.1c02193
  • 310) K.Takada, A.Komuro, Md A. Ali, M.Singh, M.Okajima, K.Matsumura, T.Kaneko, Cell-adhesive gels of sacran/collagen complexes. Polym. J. 54, 581–589 (2022)
  • 309) H.Kawaguchi, K.Takada, T.Elkasaby, R.Pangestu, M.Toyoshima, P.Kahar, C.Ogino, T.Kaneko, A.Kondo, Recent advances in lignocellulosic biomass white biotechnology for bioplastics. Biores. Tech. Part B, 344, 126165 (2022)
    https://doi.org/10.1016/j.biortech.2021.126165
  • 308) Md A. Ali, T.Kaneko, High-performance BioNylons from Itaconic and Amino Acids with Pepsin Degradability, Adv, Sus, Sys., 6(2), 2100052 (2022)
    https://doi.org/10.1002/adsu.202100052
    この論文に対するイメージ

2021

  • 307) Tatsuo Kaneko, Analysis of Components Emitted during Photodegradation of Bionylon with Light-Induced Hydrolysis, Application Note, 70 (2021)
  • 306) 金子達雄 光誘起加水分解性バイオナイロンの光分解成分解析 Shimadzu application notes, 70 (2021)
  • 305) 金子達雄 エンジニアリングプラスチックと未来社会 成形加工(巻頭言) 33(11)、377、(2021)
  • 304) 金子達雄 胃液で分解されるバイオナイロン 青淵 872(11)、24-26(2021)
  • 303) 金子達雄、岡島麻衣子 スイゼンジノリ由来超高分子サクランの実用化 産学官連携ジャーナル 6、16-19(2021)
  • 302) 金子達雄、中山敦好、増井昭彦 光スイッチ型海洋分解性プラスチック開発の取り組み マテリアルステージ 21(3)、37-47 (2021)
  • 301) 金子達雄、大西康夫、高谷直樹、荻野千秋 セルロースの微生物/化学変換による世界最高耐熱プラスチックの開発 プラスチックスエージ 67(6), 78-83(2021)
  • 300) 大西康夫、金子達雄、荻野千秋、高谷直樹 植物優来材料を原料とした史上最高の耐熱性を示すプラスチックの開発 バイオサイエンスとインダストリー 79(3), 226-227 (2021)
  • 299) Yin Hongrong, 高田健司、金子達雄 芳香族アミノ酸を利用した機能性バイオプラスチックの開発、Web Journal(有限会社アクトライ・エム)第27巻第1号通巻215号2021年5月号pp.5-7 2021/5/28発行 ISSN:20210426
  • 298) 高田健司、金子達雄 刺激応答分解性バイオベースナイロンの開発 バイオマテリアル学会誌 2021, > 39-3, pp.188-193 (オンライン)ISSN 2434-0359 (冊子体)ISSN 1347-7080
  • 297) 高田健司、金子達雄 バイオ由来のジアミンを用いたポリイミドの合成とネットワークポリマーへの応用 ネットワークポリマー論文集 Vol.42, > No. 6, (2021) ISSN 2433-3786
  • 296) K.S. Patnaik, R. Badam, Y. Peng, K. Higashimine, T. Kaneko, N. Matsumi, Extreme Fast Charging Lithium-ion Battery Using Bio-based Polymer-Derived Heavily Nitrogen Doped Carbon. Chem. Commum. 2021,57, 13704-13707
    https://pubs.rsc.org/en/content/articlelanding/2021/cc/d1cc04931c
  • 295) T.Noda, T.Iwasaki, K.Takada, T.Kaneko, Soluble Biobased Polyimides from Diaminotruxinic Acid with Unique Bending Angle. Macromolecules. 54(22), 10271–10278(2021)
    https://doi.org/10.1021/acs.macromol.1c01273
  • 294) D.Du, X.Chen, C. Shi, D.Kaneko, T.Kaneko, Z.Hua, D.Shi, Mussel-Inspired Epoxy Bioadhesive with Enhanced Interfacial Interactions for Wound Repair. Acta Biomaterialia. 136, 223-232 (2021)
    https://doi.org/10.1016/j.actbio.2021.09.054
  • 293) Aniruddha Nag, Mohammad Asif Ali, Jiabei Zhou, Makoto Ogawa and Tatsuo Kaneko. Synergistic effects of polybenzimidazole and aramide on enhancing flame retardancy and solubility, Macromol. Material. Eng. 306, 2170044 (2021)
    https://doi.org/10.1002/mame.202170044
  • 292) 高田健司、金子達雄 【水】と機能性ポリマーに関する材料設計、最新応用 第5章、第4節 バイオベースポリイミドの開発とその水溶化技術(2021)技術情報協会、ISBN:978-4-86104-853-1
  • 291) S.Saranyoo, K.Takada, T.Mitsumata, S.Ando, T.Kaneko, Orientation Analysis of Polymer Chains in Optically Transparent Biopolyimides Having Rigid and Bending Backbones, ChemistrySelect. 6, 25, 6525-6532, (2021).
    https://doi.org/10.1002/slct.202101187
  • 290) K.Takada, T.Noda, T.Kobayashi T.Harimoto, M.Singh, T.Kaneko, Synthesis of pH-responsive Polyimide Hydrogel from Bio-derived Amino Acid, Polym. J. 53, 1223–1230 (2021)
    https://doi.org/10.1038/s41428-021-00509-8
  • 289) J.Phanthuwongpakdee, T.Harimoto, S.Babel, K.Takada, T.Kaneko, Flame retardant transparent films of thermostable biopolyimide metal hybrids, Polym. Degrad. Stabil., 188, 109571, (2021).
    https://doi.org/10.1016/j.polymdegradstab.2021.109571
    この論文に対するイメージ画像
  • 288) K.Takada, K.Yasaki, S.Rawat, K.Okeyoshi, A.Kumar, H.Murata, T.Kaneko, Photoexpansion of Bio-Based Polyester: Mechanism Analysis by Time-Resolved Measurements of an Amorphous Polycinnamate Hard Film, ACS Appl. Mater. Interf.,13, 12, 14569-14576 (2021).
    https://doi.org/10.1021/acsami.0c22922
  • 287) S.Yoshikawa, Y.Kanesaki, A.Uemura, M.Okajima, T.Kaneko, K. Ohki, Physiological properties and genetic analysis of an exopolysaccharide-synthesizing Chroococcus spp. cyanobacterium isolated from a traditional Aphanothece sacrum aquafarm in Japan, J.Gen.Appl.Microbiol. 65, 1, 39-46, (2021).
    https://doi.org/10.2323/jgam.2021.02.002
  • 286) G.Joshi, K.Okeyoshi, F.A.A.Yusof, T.Mitsumata, M.K.Okajima, T.Kaneko, Interfacial Self-assembly of Polysaccharide Rods and Platelets Bridging over Capillary Lengths, J.Coll.Interf.Sci. 591, 483-489 (2021).
    https://doi.org/10.1016/j.jcis.2021.02.017
  • 285) J.Phanthuwongpakdee, S.Babel, T.Kaneko, Screening of New Bio-based Materials for Radioactive Iodide Adsorption from Water Environment, J. Water Process Eng. 40, 101955 (2021).
    https://doi.org/10.1016/j.jwpe.2021.101955
  • 284) H.Yin, K.Takada, A.Kumar, T.Hirayama, T. Kaneko, Synthesis and solvent-controlled self-assembly of diketopiperazine-based polyamides from aspartame, RSC Adv., 11, 5938-5946 (2021).
    https://doi.org/10.1039/D0RA10086B
  • 283) A.Gupta, R.Badam, A.Nag, T.Kaneko, N.Matsumi, BIAN-paraphenylene Type Condensation Copolymer Binder for Ultra-long Cyclable Lithium Ion Rechargeable Battery, ACS Appl. Energy. Mater., 4(3), 2231-2240 (2021).
    https://doi.org/10.1021/acsaem.0c02742
  • 282) D.Takahashi, S.S.A.Venkata, J.Ikeda, K.Budpud, T.Kaneko, M.Kawai, T.Mitsumata, Magnetorheological Response for Magnetic Elastomers Containing Carbonyliron Particles Coated with Poly(methyl methacrylate), Polymers. 26(1), 216 (2021).
    https://doi.org/10.3390/polym13030335
  • 281) A.A.Shamsuri, K.Abdan, T.Kaneko, A Concise Review on the Physicochemical Properties of Biopolymer Blends Prepared in Ionic Liquids, Molecules, 26(1), 216 (2021)
    https://doi.org/10.3390/molecules26010216
  • 280) A.M.T.Minh, A.Thakur, N.N.T.Ton, T.N.Nguyen, T.Kaneko, T.Taniike, Photodegradation of a semi-aromatic bio-derived polyimide, Polym. Degrad. Stabil. 184, 109472 (2021)
    https://doi.org/10.1016/j.polymdegradstab.2020.109472
  • 279) K.Okeyoshi, M.Yamashita K.Budpud G.Joshi T.Kaneko, Convective meniscus splitting of polysaccharide microparticles on various surfaces, Sci. Rep. 11, 767 (2021)
    https://doi.org/10.1038/s41598-020-80779-z
  • 278) A.Nag, M.A.Ali, H.Kawaguchi, S.Saito, Y.Kawasaki, S.Miyazaki, H.Kawamoto, D.T.N.Adi, K.Yoshihara, S.Masuo, Y.Katsuyama, A.Kondo, C.Ogino, N.Takaya, T.Kaneko, Y.Ohnishi, Ultrahigh Thermoresistant Lightweight Bioplastics Developed from Fermentation Products of Cellulosic Feedstock, Adv.Sus.Sys. 5(1), 2000193 (2021)
    https://doi.org/10.1002/adsu.202000193

2020

  • 277) 高田健司、金子達雄 自己修復・形状記憶材料の開発と応用事例 第6章、第7節 光と熱で二重に形状記憶可能なバイオベースポリエステルフィルム(2020)技術情報協会 印刷中
  • 276) 高田健司、金子達雄 バイオマス由来芳香族物質を原料とした高透明性樹脂の開発、工業材料、(2020)日刊工業新聞社 印刷中
  • 275) 高田健司、金子達雄 トルキシル酸およびその誘導体をベースとした高性能バイオベースプラスチックの開発、月刊ファインケミカル 49(12),28-36 (2020) シーエムシー
  • 274) 高田健司、金子達雄 最高レベルの耐熱性と強度を有したバイオベースプラスチックの開発、ポリマーTECH 特集バイオプラスチックの現状と将来展望 6, 19-23 (2020) ゴムタイムス出版
  • 273) M.Singh, K.Takada, T.Kaneko, Biobased Liquid Crystalline Poly(coumarate)s Composites and their Potential Applications, Compos. Commun. 22, 100531 (2020)
    https://doi.org/10.1016/j.coco.2020.100531
  • 272) A.Nag, N.Matsumi, T.Kaneko, Bio-Based Aromatics: Aminobenzoic Acid Derivatives for High-Performance Bioplastics, ACS book (ACS Symposium Series Vol.1373) Sustainability and Green Polymer Chemistry V2, Ch6, 99-121 (2020)
    https://doi.org/10.1021/bk-2020-1373.ch006
  • 271) S.Dwivedi, A.Nag, S.Sakamoto, Y.Funahashi, T.Harimoto, K.Takada, T.Kaneko, High-Temperature Resistant Water-Soluble Polymers Derived from Exotic Amino Acids, RSC Adv. 10, 38069-38074 (2020)
    https://doi.org/10.1039/D0RA06620F
  • 270) A,Kumar, K.Takada, T.Kaneko, Bio-based Polyimides from 4-Aminocinnamate Derivatives, STEPI Book V11, 11-25 (2020)
  • 269) G.Joshi, K.Amornwachirabodee, M.Okajima, K.Okeyoshi, T.Kaneko, Oriented Polysaccharide Bigels from Interfacial Crosslinking, Chem. Lett. 49(12) 1484-1486 (2020).
    https://doi.org/10.1246/cl.200574
  • 268) N.Wathoni, T.Rusdiana, R.A.Pratama, N.A.Hasanah, M.Okajima, T.Kaneko, A.F.A.Mohammed, W.B.Putera, H.Arima, Epidermal growth factor in sacran hydrogel film accelerates fibroblast migration, J.Adv.Pharm.Tech.Res. 11(2), 74-80 (2020).
    https://dx.doi.org/10.4103%2Fjaptr.JAPTR_147_19
  • 267) K.Okeyoshi, M.Okajima, T.Kaneko, Cyanobacterial polysaccharides, sacran: characteristics, structures, and preparation of LC gels, Polym. J. 53, 81-91 (2021)
    https://doi.org/10.1038/s41428-020-00426-2
  • 266) J.Phanthuwongpakdee, S. Babel, K. Laohhasurayotin, S. Sattayaporn, T. Kaneko, Anthocyanin based agricultural wastes as bio-adsorbents for scavenging radioactive iodide from aqueous environment, J. Env. Chem. Eng. 8(5), 104147 (2020).
    https://doi.org/10.1016/j.jece.2020.104147
  • 265) K.Igata, T.Sakamaki, Y.Inutsuka, Y.Higaki, M.Okajima, N.Yamada, T.Kaneko, A.Takahara, Cationic Polymer Brush/Giant Polysaccharide Sacran Assembly: Structure and Lubricity, Langmuir, 36(23), 6494-6501 (2020).
    https://doi.org/10.1021/acs.langmuir.0c00854
  • 264) K.Budpud, K.Okeyoshi, M.Okajima, T.Kaneko, Vapor-sensitive materials from polysaccharide fibers with self-assembling twisted microstructures, Small, 16(29), 2001993 (2020).
    https://doi.org/10.1002/smll.202001993
  • 263) F.Adila, T.Noda, K.Takada, T.Kaneko, M.Kawai, T.Mitsumata, Critical Electric Field and Activation Energy for Electric Conductivity for Biopolyimide Using 4,4’-Diamino-truxillic acid and 1,2,3,4-Cyclobutanetetracarboxylic dianhydride, Chem. Lett. 49(8), 929-931 (2020).
    https://doi.org/10.1246/cl.200232
  • 262) K.Takada, H.Shinagawa, Y.Morita, M.S.Grewal, K.Taya, A.Kumara, T.Kaneko, Syntheses of Soluble Biopolyimides using 4-Aminophenylalanine, Chin. J. Polym. Sci. 38(10), 1117-1123 (2020)
    https://doi.org/10.1007/s10118-020-2450-6
  • 261) J.Phanthuwongpakdee, S.Babel, S.Dwivedi, K.Takada,T.Hirayama, T.Kaneko, Anion-scavenging Biopolyamides from Quaternized 4-Aminocinnamic Acid Photodimer, ACS Sustain. Chem. Eng. 8(9), 3786-3795 (2020).
    https://doi.org/10.1021/acssuschemeng.9b07003
  • 260) J.Phanthuwongpakdee, S.Babel, T.Kaneko, Natural Adsorbents for Removal of Different Iodine Species from Aqueous Environment: A Review. “Recent Trends in Waste Water Treatment and Water Resource Management” (Eds. by S.K.Ghosh, P.D.Saha, M.F.Di), Springer Nature (Singapore)
  • 259) L.Li, A.Takada, W.Ma, S.Fujikawa, M.Ariyoshi, K.Igata, M.Okajima, T.Kaneko, A.Takahara, Structure and Properties of Hybrid Film Fabricated by Spin-assisted Layer-by-Layer Assembly of Sacran and Imogolite Nanotubes, Langmuir, 36(7), 1718-1726 (2020)
    https://doi.org/10.1021/acs.langmuir.9b03626
  • 258) N.F.A.A.Yusof, M.Yamaki, M.Kawai, M.Okajima, T.Kaneko, T.Mitsumata, Rheopectic Behavior for Aqueous Solutions of Megamolecular Polysaccharide Sacran, Biomolecules, 10(1), 155 (2020).
    https://doi.org/10.3390/biom10010155
  • 257) T. Hirayama (Kongprathet), A. Kumar, K. Takada, T. Kaneko, Morphology-Controlled Self-Assembly and Synthesis of Biopolyimide Particles from 4-Amino-L-phenylalanine, ACS Omega, 5(5), 2187-2195 (2020).
    https://doi.org/10.1021/acsomega.9b03231

2019

  • 256) 水無 渉、大西康夫、金子達雄、高谷直樹、松見紀佳 デジタルを融合したバイオ技術─バイオ由来自動車材料を例として 自動車技術 Vol73,No11,101-106 (2019)
  • 255) 岡島麻衣子、金子達雄、スイゼンジノリの生産する細胞外多糖サクランの示す「想定外」の構造物性 Cellulose Technology 26(2), 66-69 (2019)
  • 254) 水谷五郎、趙 越、Hien Thi Thu Khuat、岡島麻衣子、金子達雄、種々の刺激を受けたサクラン凝集体からの光の倍音の観察  YAKUGAKU ZASSHI, 139(3), 351-362 (2019)
  • 253) 岡島麻衣子、金子達雄、ラン藻由来巨大多糖の導く工業・医療材料の展望、YAKUGAKU ZASSHI 139(3), 363-369 (2019)
  • 252) 有馬 英俊、金子 達雄、機能性材料としてのスイゼンジノリ及びサクランの魅力 YAKUGAKU ZASSHI 139(3), 349-350 (2019).
  • 251) 金子達雄、Mohammad Asif Ali、岡島麻衣子 光刺激応答型分解性バイオプラスチックの開発 月刊「ケミカルエンジニヤリング」64(9), 612-619 (2019).
  • 250) S. Kato, F. Adila A. Yusof, T. Harimoto, K. Takada, T. Kaneko, M. Kawai, T. Mitsumata, Electric Volume Resistivity for Biopolyimide Using 4, 4′-Diamino-α-truxillic acid and 1, 2, 3, 4-Cyclobutanetetracarboxylic dianhydride,Polymers, 11(10), 1552 (2019)
  • 249) J. Zeng, D. Shi, Y. Gu, T. Kaneko, L. Zhang, H. Zhang, D. Kaneko, M. Chen, Injectable and Near-Infrared-Responsive Hydrogels Encapsulating Dopamine-Stabilized Gold Nanorods with Long Photothermal Activity Controlled for Tumor Therapy, Biomacromolecules,20(9), 3375-3384 (2019).
  • 248) N. Wathoni, T. Rusdiana, A. N. Hasanah, A. Muhtadi, E. D. Pratiwi, R. Mahmudah, A. F. A. Mohammed, M. Okajima, T. Kaneko, H. Arima, Sacran Hydrogel Film Containing Keratinocyte Growth Factor Accelerates Wound Healing by Stimulating Fibroblast Migration and Re-epithelization, Chem. Pharm. Bull., 67(8), 849-854 (2019).
  • 247) K. Okeyoshi, M. Yamashita, T. Sakaguchi, K. Budpud, G. Joshi, T. Kaneko, Effect of evaporation rate on meniscus splitting with formation of vertical polysaccharide membranes, Adv. Mater. Interfaces, 6(17), 1970108 (2019).
  • 246) A. Nag, M.A. Ali, M. Watanabe, M. Singh, K. Amornwachirabodee, S. Kato, T. Mitsumata, K. Takada, T. Kaneko, Dataset of various characterizations for novel bio-based plastic poly(benzoxazole-co-benzimidazole) with ultra-low dielectric constant, Data in Brief, 25, 104114 (2019).
  • 245) M. A. Ali, T. Kaneko, Syntheses of Aromatic/heterocyclic derived bioplastics with high thermal/mechanical performance, Ind. Eng. Chem. Res., 58(35), 15958-15974 (2019).
  • 244) G. Joshi, K. Okeyoshi, T. Mitsumata, T. Kaneko, Micro-deposition control of polysaccharides on evaporative Air-LC interface to design quickly swelling hydrogels, J. Colloid Interface Sci., 546(15), 184-191 (2019).
  • 243) K. Ohki, Y Kanesaki, N. Suzuki, M. Okajima, T. Kaneko, S. Yoshikawa, Physiological properties and genetic analysis related to exopolysaccharide (EPS) production in the fresh-water unicellular cyanobacterium Aphanothece sacrum (Suizenji Nori), J. Gen. Appl. Microbiol., 65, 39?46 (2019).
  • 242) A. Nag, M.A. Ali, M. Watanabe, M. Singh, K. Amornwachirabodee, S. Kato, T. Mitsumata, K. Takada, T. Kaneko, High-performance poly(benzoxazole/benzimidazole) bio-based plastics with ultra-low dielectric constant from 3-amino-4-hydroxybenzoic acid, Polym. Degrad. Stab. 162, 29-35 (2019).
  • 241) E. Sipos, T. Kaneko, M. Zrinyi, Experimental Investigation of Damage Formation in Planar Fibrous Networks during Stretching, Sci. Rep., 9, 2816 (2019).
  • 240) S. Wang, S. Kinugawa, Y. Kitamura, N. Hiraishi, A. Tsuge, D. Kaneko, T. Kaneko, Preparation of mussel-inspired biopolyester adhesive and comparative study of effects of meta- or para-hydroxyphenylpropionic acid segments on their properties, Polymer, 165, 152-162 (2019).
  • 239) A. Nag, M. A. Ali, A. Singh, R. Vedarajan, N. Matsumi, T. Kaneko, N-boronated polybenzimidazole for composite electrolyte design of highly ion conductive pseudo solid-state ion gel electrolytes with high Li-transference number, J. Mater. Chem. A, 7, J. Mater. Chem. A, 2019,7, 4459-4468″>4459-4468 (2019).
  • 238) S. Masuo, T. Kaneko, N. Takaya, Fermentation and purification of microbial monomer 4-amminocinnamic acid to produce ultra-high performance bioplastics, Process Biochemistry, 77, 100-105 (2019).

2018

  • 237) S. Sornkamnerd, M.K.  Okajima, K. Matsumura, T. Kaneko, Micro-patterned cell orientation of cyanobacterial liquid-crystalline hydrogels, ACS Appl. Mater. Interfaces, 10 (51), 44834?44843 (2018).
  • 236) K. Takada, Y. Mae, T. Kaneko, Fluorinated and Bio-Based Polyamides with High Transparencies and Low Yellowness Index, Polymers, 10, 1311 (2018).
  • 235) K. Takada, S. Karikome, S. Dwivedi, T. Kaneko, Fully Bio-based Aromatic Polyimide using 4-Aminocinnamic Acid and Mellophanic Dianhydride as Bio-derived Monomers, ECS Transactions, 88 (1), 99-105 (2018).
  • 234) K. Okeyoshi, T. Shinhama, K. Budpud, G. Joshi, M.K. Okajima, T. Kaneko, Micelle-mediated Self-assembly of Microfibers Bridging Millimeter-scale Gap to Form 3D-ordered Polysaccharide Membranes, Langmuir, 34, 13965-13970 (2018).
  • 233) 高田健司、金子達雄 芳香族バイオ分子を利用した高性能高分子材料の開発、アグリバイオ (特集:高分子材料のバイオ生産)、2(9)、30(860)-34(864)、(2018)
  • 232) T. Kaneko, D.Sumant, Aromatic Bioplastics with Heterocycles, ACS Books “Green Polymer Chemistry: New Products, Processes, and Applications”, Manuscript ID: bk-2018-00460n.R1
  • 231) K.Motoyama, T.Higashi, N.R.Ngatu, M.K.Okajima, Y.Nishimura, H.Arima, T.Kaneko, Sacran: Novel Sulfated Polysaccharide as Anti-Allergic Skincare Biomaterial for Atopic Dermatitis, In: Ngatu N., Ikeda M. (eds) Occupational and Environmental Skin Disorders. Springer, Singapore, (2018).
  • 230) 桶葭興資、岡島麻衣子、金子達雄、天然由来多糖の界面配向とマクロ空間分割現象、BIO INDUSTRY 35(5), 27-35 (2018).
  • 229) D.Sumant, T.Kaneko, Robustification of ITO nanolayer by surface-functionalization of transparent biopolyimide substrates, J. Appl. Polym. Sci.135(40),46709 (2018)
    https://doi.org/10.1002/app.46709
  • 228) T.Kaneko,  M. A. Ali,  I.Captain,  P.Perlin, T. J. Deming, Polypeptide gels incorporating the exotic functional aromatic amino acid 4-amino-L-phenylalanine, Polym. Chem. 9, 3466-3472 (2018).
  • 227) 本山敬一、東大志、岡島麻衣子、金子達雄、有馬英俊、創傷被覆材としてのサクランハイドロゲルの有効利用、YAKUGAKU ZASSHI 138 (4), 517-520 (2018).
  • 226) 桶葭興資、岡島麻衣子、金子達雄、超高分子サクランの一軸配向膜形成と薬物放出の試み、YAKUGAKU ZASSHI 138 (4), 503-507 (2018).
  • 225) 金子達雄、岡島麻衣子、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、YAKUGAKU ZASSHI 138 (4), 489-496 (2018).
  • 224) 有馬英俊、金子達雄、スイゼンジノリ由来多糖サクランの魅力、YAKUGAKU ZASSHI 138 (4), 487-488 (2018).
  • 223) D. Sumant, S. Sakamoto, S. Kato, T. Mitsumata, T. Kaneko, Effect of biopolyimide molecular design on their silica hybrids thermo-mechanical, optical and electrical properties, RSC Adv., 8, 14009-14016 (2018).
  • 222) 高田健司、金子達雄 環境適応型、高性能プラスチックの開発、Web Journal (次世代のモノづくりイノベーションを支える高機能素材)、4、6-9、(2018)
  • 221) 高田健司、金子達雄 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、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)
  • 220) D. Sumant, T. Kaneko, Molecular design of soluble biopolyimide with high rigidity, Polymers, 10(4), 368 (2018).
  • 219) S. Sornkamnerd, M.K. Okajima, K.Matsumura, T. Kaneko, Surface-selective control of cell-orientation on cyanobacterial liquid crystalline gels, ACS Omega, 3(6), 6554?6559 (2018).
  • 218) M.K. Okajima, S. Sornkamnerd, T. Kaneko, Development of Functional Bionanocomposites using Cyanobacterial Polysaccharides, Chem. Rec., 18, 1-12 (2018).
  • 217) A.Matta, P.Chammingkwan, B.K.Singh, M.Terano, T.Kaneko, T.Taniike, Truxillic and truxinic acid-based, bio-derived diesters as potent internal donor in Ziegler-Natta catalyst for propylene polymerization, Appl. Catal. A, Gen. 554, 80-87 (2018).
  • 216) Y. Kawasaki, N. Aniruddha, H.Minakawa, S. Masuo, T. Kaneko, N. Takaya, Novel poly-condensed biopolyamide generated from biomass-derived 4-aminohydrocinnamic acid, Appl. Microbiol. Biotechnol., 102(2), 631-639 (2018).
  • 215) 桶葭興資、岡島麻衣子、金子達雄 乾燥下における超高分子多糖のマクロ空間分割と一軸配向膜の形成、高分子論文集、75(1), 1-8 (2018).
  • 214) K. Okeyoshi, G. Joshi, M.K. Okajima, T. Kaneko, Formation of Polysaccharide Membranes by Splitting of Evaporative Air-LC Interface, Adv. Mater. Interfaces, 5(3),1701219 (2018).

2017

  • 213) 高田健司、金子達雄、 光反応が作り出す高強度・高耐熱・高透明性バイオプラスチック、光技術コンタクト(特集:新しい光学材料)、55(11)、10-18 (2017)
  • 212) Md. A. Ali, N. Tandon, T. Kaneko, Simultaneous hardening/ductilizing effects of cryogenic nanohybridization of biopolyamides with montmorillonites, ACS Omega, 2(12), 9103-9108 (2017).
  • 211) Y. Zhao, Y. Li, K.T.T Hien, G. Mizutani, N. Ito, H.N. Rutt, M. Okajima, T. Kaneko, Electric field effect on optical second-harmonic generation of amphoteric megamolecule aggregates, J. Phys. Soc. Jpn., 86, 124401 (2017).
  • 210) K. Takada, H. Yin, T. Matsui, Md.A. Ali, T. Kaneko, Bio-based mesoporous sponges of chitosan conjugated with amino acid diketopiperazine through oil-in-water emulsions, J. Polym. Res., 24, 216 (2017).
  • 209) Md.A.Ali, H.Shimosegawa, A.Nag, K.Takada, T.Kaneko, Synthesis of thermotropic polybenzoxazole using 3-amino-4-hydroxybenzoic acid, J. Polym. Res., 24, 214 (2017).
  • 208) 高田健司、立山誠治、金子達雄 ケイ皮酸からつくる高耐熱性バイオプラスチック 現代化学, 11(560), 51-57 (2017).
  • 207) S. Sornkamnerd, M. K. Okajima, T. Kaneko,Tough and Porous Hydrogels Preapred by Simple Lyopgilization of LC gels, ACS Omega, 2, 5304-5314 (2017).
  • 206) N.R.Ngatu, K.Motoyama, Y.Nishimura, M.K.Okajima, R.Hirota, T.Higashi, S.Lee, H.Arima, M.Ikeda, S.Nojima, T.Kaneko, Anti-allergic and Profilaggrin (ProFLG)-mRNA Expression Modulatory Effects of Sacran, Int. J. Biol. Macromol., 105, 1532-1538 (2017).
  • 205) P.Monika, T.Kaneko, K.Matsumura, Switchable release nano-reservoirs for co-delivery of drugs via a facile micelle-hydrogel composite, J. Mater. Chem. B, 5, 3488-3497 (2017).
  • 204) K.Okeyoshi, G.Joshi, S.Rawat, S.Sornkamnerd, K.Amornwachirabodee, M.Okajima, M.Ito, S.Kobayashi, K.Higashimine, Y.Oshima, T.Kaneko, Drying-induced self-similar assembly of mega-molecular polysaccharides through nano- and submicron layering, Langmuir, 33(20), 4954?4959 (2017).
  • 203) M.S.Grewal, K.Taya, S Tateyama, T.Kaneko, Preparation of tough biopolyurea films from aromatic amino acid as diamine monomer, Macromol. Symp., 375, 1600194 (2017).
  • 202) Md. A. Ali, T. Kaneko Microbe-Derived Itaconic Acid: Novel Route to Biopolyamides, Microbial Applications Vol.2 Biomedicine, Agriculture and Industry, Part III (V. C. Kalia Ed.), 279-289 (2017).
  • 201) N.Wathoni,K.Motoyama, T.Higashi, M.Okajima, T.Kaneko, H.Arima, Enhancement of Curcumin Wound Healing Ability by Complexation with 2-Hydroxypropyl-γ-cyclodextrin in Sacran Hydrogel Film, Int.J. Biol.Macromol. 98, 268-276 (2017).
  • 200) T.Oguro, S.Sasaki, Y.Tsujiei, M.Kawai, T.Mitsumata, T.Kaneko, M.Zrinyi, Sample-Size Effect of Magneto-Mechanical Response for Magnetic Elastomers by Using Permanent Magnets, J. Nanomater., 8605413-7 (2017).
  • 199) Y.Zhao, K.T.T.Hien, G.Mizutani, H.N.Rutt, K.Amornwachirabodee, M Okajima, T.Kaneko, Optical Second-Harmonic Images of Sacran Megamolecules Aggregates, J. Opt. Soc. Amer. A, 34(2), 146-152 (2017).
  • 198) K.Okeyoshi, K.Osada, M.K.Okajima, T.Kaneko, Methods for the self-integration of megamolecular biopolymers on the drying air-LC interface, J. Vis. Exp., 122, e55274 (2017).
  • 197) 金子達雄、エキゾチック天然物質を用いた新奇高耐熱バイオプラスチック、マテリアルステージ 16(10), 55-59, (2017).

2016

  • 196) N. Wathoni, K. Motoyama, T. Higashi, M. Okajima, T. Kaneko, H. Arima, Enhancing effect of γ-cyclodextrin on wound dressing properties of sacran hydrogel film, Int. J. Biol. Macromol. 94, 181-186 (2016)
  • 195) N.R.Ngatu, M. Tanaka, M.K.Okajima, M.Yokogawa, M.Ikeda, M.Inoue, H.Watanabe, S.Kanbara, S.Nojima, T.Kaneko, N.Suganuma, Anti-allergic effects and immunomodulatory activity of sacran, a bioactive compound from river alga aphanothece sacrum, Evidence-based Med.Public Health, 2, e1438 (2016).
  • 194) H. Shin, S. Wang, S. Tateyama, D. Kaneko, T. Kaneko, Preparation of Ductile Biopolyimide Film by Copolymerization, I&EC Res, 55, 8761-8766 (2016).
  • 193) K. Shikinaka, K. Okeyoshi, H. Masunaga, M. K. Okajima, T. Kaneko, Solution Structure of Cyanobacterial Polysaccharide, Sacran, Polymer, 99, 767-770 (2016)
  • 192) T. -T. Huang, C. -L. Tsaia, S. Tateyama, T. Kaneko, G. -S. Liou, Highly Transparent and Flexible Biobased Polyimide/TiO2 and ZrO2 Hybrid Films with Tunable Refractive Index, Abbe Number, and Memory Properties, Nanoscale, 8, 12793-12802 (2016)
  • 191) G. Joshi, K. Okeyoshi, M. Okajima, T. Kaneko, Directional control of diffusion and swelling in megamolecular polysaccharide hydrogels, Soft Matter, 12, 5515-5518 (2016).
  • 190) N. Wathoni, K. Motoyama, T. Higashi, M. Okajima, T. Kaneko, H. Arima, Physically Crosslinked-Sacran Hydrogel Films for Wound Dressing Application, Int. J. Biol. Macromol. 89, 465-470 (2016).
  • 189) H. T. Tran, N. D. Vu, M. Matsukawa, M. Okajima, T. Kaneko, K. Ohki, S. Yoshikawa, Heavy Metal Biosorption from Aqueous Solutions by Algae Inhabiting Rice Paddies in Vietnam, J. Environ. Chem. Eng. 4(2), 2529-2535 (2016).
  • 188) S. Masuo, S. Zhou, T. Kaneko, N. Takaya, Bacterial fermentation platform for producing artificial aromatic amines, Sci. Rep., 6, 25764-25773 (2016).
  • 187) K. Okeyoshi, M. Okajima, T. Kaneko, Milliscale self-integration of megamolecule biopolymers on a drying gas-aqueous liquid crystalline interface, Biomacromolecules,17(6),2096-2103(2016).
  • 186) S. Tateyama, S. Masuo, P. Suvannasara, Y. Oka, A. Miyazato, K. Yasaki, T. Teerawatananond, N. Muangsin, S. Zhou, Y. Kawasaki, L. Zhu, Z. Zhou, N. Takaya, T. Kaneko, Ultra-strong, transparent polytruxillamides derived from microbial photodimers, Macromolecules, 49(9), 3336-3342 (2016).
  • 185) A. Kumar, S. Tateyama, K. Yasaki, Md. A. Ali, N. Takaya, R. Singh, T. Kaneko, 1H-NMR and FT-IR dataset based structural investigation of poly(amic acid)s and polyimides from 4,4′-diaminostilbene Article reference, Data in Brief, 123-128 (2016).
  • 184) W. Ito, M. Yamaki, M. Kawai, T. Mitsumata, M. Okajima, T. Kaneko, Extraordinary Swelling for Hydrogels Physically Cross-Linked Megamolecular Chains Sacran, Chem. Lett, 45(3), 339-340 (2016).
  • 183) T. Kaneko, S. Tateyama, M. Okajima, H. Shin, N. Takaya, Ultrahigh Heat-resistant, Transparent Bioplastics from Exotic Amino Acid, Mater. Today Proc. 3(1), S21?S29 (2016).
  • 182) H.Nguyen, T.Kaneko,N.Takaya,T.Fujita,T.Ito Fermentation of Aromatic Lactate Monomer and its Polymerization to Produce Highly Thermoresistant Bioplastics, Polym. J. 48, 81-89 (2016).
  • 181) A. Kumar, S. Tateyama, K. Yasaki, Md. A. Ali, N. Takaya, R. Singh, T. Kaneko, Ultrahigh performance bio-based polyimides from 4,4′-diaminostilbene, Polymer, 83, 182-189 (2016).
  • 180) 金子達雄、桂皮酸による高強度・透明バイオポリアミドの開発、プラスチックエージ、12, 63-68 (2016).
  • 179) 金子達雄、 世界最高の強度を誇るバイオプラスチック -ガラス代替材料への期待を込めて-、化学、71,12-15 (2016).

2015

  • 178) N. Ngatu, M. K. Okajima, L. S. Nangana, S.l Vumi-Kiaku, T. Kaneko, S Kanbara, R. D. Wumba, S. W- Okitotsho, Sacran, a new sulfated glycosaminoglycan-like polysaccharide from river alga Aphanothece sacrum (Suringar) Okada alleviates hemorrhoid syndrome: Case report Ann. Phytomed. 4(2), 49-51 (2015).
  • 177) K. Amornwachirabodee, M. Okajima, T. Kaneko, Uniaxial Swelling in LC Hydrogels Formed by Two-step Cross-linking, Macromolecules, 48 (23), 8615?8621 (2015).
  • 176) M. Okajima, R. Mishima, K. Amornwachirabodee, K. Okeyoshi, T. Kaneko Anisotropic Swelling in Hydrogels Formed by Cooperatively Aligned Megamolecules, RSC Adv. 5(105), 86723-86729 (2015).
  • 175) Md. A. Ali, P. Suvannasara, S. Tateyama, T. Kaneko Development of high performance bio-based polymers having heterocycles and their controlled corrosion, Vietnam J. Sci. Tech. 53(4A), 187-195 (2015).
  • 174) X. Jin, S. Tateyama, T. Kaneko, Salt-induced reinforcement of anionic bio-polyureas with high transparency, Polym. J. 47, 727-732 (2015).
  • 173) N. R. Ngatu, R. Hirota, M. Okajima, T. Kaneko, K. F. Malonga, N. Suganuma Sacran, a natural skin barrier enhancer, improves atopic and contact eczema: Case report, Ann. Phytomed. 4(1), 111-113 (2015).
  • 172) 立山誠治、高谷直樹、金子達雄 世界最高の耐熱性を持つバイオプラスチック -芳香族バイオポリイミド- ポリイミド芳香族系高分子最近の進歩2015年 (安藤慎治編) 21-26 (2015)
  • 171) 金子達雄 光と熱で二重に形状記憶するバイオベースフィルム 高分子 64(8), 487-489 (2015).
  • 170) 金子達雄 世界最高の耐熱性を持つバイオプラスチック Web Journal 4, 13-15 (2015).
  • 169) 金子達雄 バイオプラスチックの耐熱化の状況と今後 自動車技術 69(4), 77-80 (2015).
  • 168) 金子達雄 微生物分子の構造を基盤とする超高性能バイオプラスチックの分子設計 素材物性学雑誌 26(1/2), 10-15 (2015).
  • 167) 立山誠治、高谷直樹、金子達雄 微生物生合成によるバイオポリイミドの開発 金子達雄 プラスチックエージ, 61(4), 99-102 (2015).
  • 166) 金子達雄 芳香族バイオ分子「桂皮酸類」を用いた光機能・超高性能バイオプラスチックの開発 化学工業 66(2), 73-79 (2015).
  • 165) 金子達雄、高谷直樹 セ氏425度という高温に耐えられるバイオプラスチックを開発 金子達雄 化学と生物 53(5), 270-272 (2015).
  • 164) 金子達雄 芳香環/ヘテロ環を有する超高性能バイオプラスチックの開発 BIO INDUSTRY 32(2), pp12-19 (2015).
  • 163) 金子達雄 ヘテロ環を有する超高性能バイオポリマー材料の開発 ペテロテック 38(1), 41-46 (2015).

2014

  • 162) 金子達雄、岡島麻衣子、立山誠治 超巨大多糖類の構造物性とバイオミメティクな機能創出 日本ゴム協会誌 87(4), 146-152 (2014).
  • 161) D. Rossi, M. Owada, K. Matsuura, K. Sugimori, A. Bettero, T. Kaneko Development of a method for quality assessment of Japanese Biofango mudtherapy protocol by tensiometric approach J. Jpn. Soc. Balneol Climatol. Phys. Med. 77(5), 439-440 (2014).
  • 160) M. A. Ali, S. Tateyama T.Kaneko, Syntheses of rigid-rod but degradable biopolyamides from itaconic acid with aromatic diamines, Polym. Degrad. Stabil. 109, 367-372 (2014).
  • 159) K. Kan, S. Tateya, T. Kaneko, Polarimetry-controlled Fluorescent Color in Oriented LC Biopolyesters, Macromol. Res. 22(7), 725-730 (2014).
  • 158) H. Shin, S. Tateyama, T. Kaneko Synthesis of Photo-degradable Polyamide Rotaxanes with Cinnamate Photodimer and Cyclodextrin, J Mater. Life Soc. 26(2), 25-31 (2014).
  • 157) N. R. Ngatu, R. Hirota, M. Okajima, L. S. Nangana, B. A. Muzembo, M. Eitoku, O. S. Wembonyama, T. Kaneko, L-  Mbenza, N. Suganuma, Efficacy of leaf extracts of Vernonia amygdalina Del. from central Africa on atopic eczema, Ann. Phytomed. 3(1), 1-7 (2014).
  • 156) K. Kan, H. Yamamoto, D. Kaneko, S. Tateyama, T. Kaneko, Novel π-conjugated bio-based polymer, poly(3-amino-4-hydroxybenzoic acid), and its solvatochromism, Pure Appl. Chem. 86(5), 685?690 (2014).
  • 155) P. Suvannasara, S. Tateyama, A. Miyasato, K. Matsumura, T. Shimoda, T. Ito, Y. Yamagata, T. Fujita, N. Takaya, T. Kaneko, Bio-based polyimides from 4-aminocinnamic acid photodimer, Macromolecules, 47(5), 1586-1593 (2014).
  • 154) K. Ohki, Q. T. Nguyen, S. Yoshikawa,Y. Kanesaki, M. Okajima, T. Kaneko, H. T. Tran, Exopolysaccharide production by a unicellular freshwater cyanobacterium Cyanothece sp. isolated in a rice field of Viet Nam, J. Appl. Phycol. 26(1), 265-272 (2014)
  • 153) A. C.S. Alcantara, M. Darder, P. Aranda, S. Tateyama, M. K. Okajima, T. Kaneko, M. Ogawa, E. R. Hitzky Clay-Bionanocomposites with Sacran Megamolecules for the Selective Uptake of Neodymium, J. Mater. Chem. A 2(5), 1391-1399 (2014).
  • 152) 金子達雄、モハマドアシフアリ、立山誠治 イタコン酸を利用した植物性高耐熱ナイロン Polyfile 51(8), 18-21 (2014)
  • 151) 金子達雄 光と熱で形状記憶するバイオフィルムの開発 プラスチッククエージ 60(9), 42-43 (2014)
  • 150) 矢崎克明、王 思乾、金子達雄、光と熱で繰り返し成形できる新規バイオフィルムの開発 機能材料, 34(2), 56-62 (2014).
  • 149) 金子達雄、王 思乾 複数の形状記憶は可能なのか?-生体分子を利用した新機能分子材料の設計 化学 69(2), 66-67 (2014)

2013

  • 148) 金子達雄、モハマドアシフアリ、立山誠治 環境分解性高性能バイオプラスチックの開発 ケミカルエンジニヤリング, 58(8), 1-8 (2013).
  • 147) S. Wang, D. Kaneko, M. Okajima, K. Yasaki, S. Tateyama, T. Kaneko, Hyperbranching Polycoumarates with Photofunctional Multiple Shape-Memory, Angew. Chem. Int. Ed. 52(42), 11143-11148 (2013).
  • 146) K. Yasaki, S. Tateyama, D. Kaneko, T. Kaneko, Photomechanic Behavior of Main-chain Type of Polycoumarates, J. Photopol. Sci. Technol., 26(2), 271-275 (2013).
  • 145) S. Tateyama, T. Kaneko, Biopolyesters with High Thermal and Mechanical Performances, Bioindustry, 30(5), 17-23 (2013).
  • 144) M. A. Ali, S. Tateyama, Y. Oka, M. Okajima, D. Kaneko, T. Kaneko, High-performance Biopolyamides Derived from Itaconic Acid and Their Environmental Corrosion, Macromolecules, 46(10), 3719?3725 (2013).
  • 143) T. Mitsumata, T. Miura, N. Takahashi, M. Kawai, M. Okajima, T. Kaneko, Ionic state and chain conformation for aqueous solutions of supergiant cyanobacterial polysaccharide, Phys. Rev. E, 87,042607-9 (2013).
  • 142) M. Okajima, A. Kumar, T. Higashi, A. Fujiwara, T. Mitsumata, D. Kaneko, T. Ogawa, H. Kurata, S. Isoda, T. Kaneko, Anionic Complexes of MWCNT with Supergiant Cyanobacterial Polyanions, Biopolymers, 99(1), 1-9 (2013).
  • 141) M. Okajima, Q. T. Nguyen, M. Nakamura, T. Ogawa, H. Kurata, T. Kaneko Double-metal Complation of Heterogels Containing Cyanobacterial Polysaccharides, J. Appl Polym. Sci. 128(1), 676-683 (2013).
  • 140) S. Tateyama, S. Wang, M. Chauzar, K. Yasaki, K. Kan, T. Kaneko, Innovative molecular designs of high-performance but degradable bioplastics, J. Mater. Life Soc. 25, 52-55 (2013) .
  • 139) 金子達雄、立山誠治、M. Chauzar 高分岐バイオポリエステルの自己配向を利用した高耐熱発泡体の作成, プラスチックス、64(4), 73-77 (2013).

2012

  • 138) Development of high performance bioplastics from aromatic biomolecules H. D. Hieu, S. Tateyama, S. Wang, K. Kan, Y. Katsuaki, T. Kaneko, Vietnam J. Chem. 50(6B), 135-141 (2012).
  • 137) 岡島麻衣子、金子達雄 ラン藻由来巨大分子サクランを用いたレアメタル回収、自動車技術、2012, 66(11), 87-91.
  • 136) M. Okajima, Q. Nguyen, S. Tateyama, H. Masuyama, T. Tanaka, T. Mitsumata, T. Kaneko, Photo-shrinkage in Polysaccharide Gels with Trivalent Metal Ions, Biomacromolecules, 13(12), 4158-4163 (2012).
  • 135) S. Wang, D. Kaneko, K. Kan, X. Jin, T. Kaneko, Syntheses of hyperbranched LC biopolymers with strong adhesion from phenolic phytomonomers, Pure Appl. Chem. 84(12), 2559-2568 (2012).
  • 134) M. Okajima, M. Nakamura, T. Ogawa, H. Kurata,T. Mitsumata,T. Kaneko, Spongy Hydrogels of Cyanobacterial Polyanions Mediate Energy-saving, Ind. Eng. Chem. Res. 51 (25), 8704-8707 (2012)
  • 133) M. Chauzar, S. Tateyama, T. Ishikura, K. Matsumoto, D. Kaneko, K. Ebitani, T. Kaneko, Hydrotalcites catalyze the acidolysis polymerization of phenolic acid to create highly heat-resistant bioplastics, Adv. Funct. Mater. 22(16), 3438-3444 (2012)
  • 132) N.R.Ngatu, M.Yokogawa, R.Hirota, M.K.Okajima, T.Kaneko, M.Takahashi, M.Eitoku, A.Sabah, T.Saruta, M.Miyaura, S. Sano, N.Suganuma, Anti-Allergic Effects of Vernonia amygdalina leaf extracts in hapten-induced Atopic Dermatitis-like disease in mice, Aller. Int. 61(4), 597-607 (2012)
  • 131) N.R.Ngatu, M.K.Okajima, M.Yokogawa, R.Hirota, M.Eitoku, B.A.Muzembo, N.Dumavibhat, M.Takaishi, S.Sano, T.Kaneko, T.Tanaka, H.Nakamura, N.Suganuma, Anti-inflammatory Effects of Sacran, a Novel Polysaccharide from Aphanothece sacrum,on 2,4,6-Trinitrochlorobenzene induced Allergic Dermatitis in vivo, Ann. Aller. Asthma. Immunol. 108(2), 117-122 (2012)
  • 130) Q.T.Nguyen, M.Okajima*(contribute equally to 1st author), T.Mitsumata,?K.Kan,?T.Kaneko, Trivalent metal-mediated gelation of novel supergiant sulfated polysaccharides extracted from Aphanothece stagnina, Coll. Polym. Sci. 290(2), 163-172 (2012)

2011

  • 129) 岡島麻衣子、金子達雄 ~藍藻由来巨大多糖類「サクラン」によるレアアースメタル回収技術~, リサイクル・廃棄物辞典 第5篇101 (株)産業調査会 印刷中
  • 128) 岡島麻衣子、金子達雄 ‘超‘超巨大多糖類「サクラン」を利用したレアアース回収, 化学と工業, 10, 780-782 (2011).
  • 127) S.Wang, S.Tateyama, D.Kaneko, S.Ohki, T.Kaneko, Synthesis of well-defined hyperbranched polymers bio-based on multifunctional phenolic acids and their structure-thermal property relationships, Polym. Degrad. Stabil. 96(12), 2048-2054 (2011)
  • 126) D.Kaneko, K.Matsumoto, S. Kimugawa, T.Kaneko, Effects of Adhesive Characteristics of Catechol Group on Fiber Reinforced Plastics, Polym. J. 43, 944-947 (2011)
  • 125) D.Kaneko, S. Wang, S. Kinugawa, K.Matsumoto, K. Yasaki, D. H. Chi, T.Kaneko, Mussel-mimetic Strong Adhesive Resin from Bio-base Polycoumarates, Polym. J. 43, 855-858 (2011)
  • 124) K. Niu, Z. B. Ni, C. W. Fu, T. Kaneko, M. Chen,Template preparation of twisted nanoparticles of mesoporous silica, Particuology, 9(1), 51-55, (2011)
  • 123) K. Kan, D. Kaneko, T. Kaneko, Polarized Emission of Wholly Aromatic Bio-Based Copolyesters of a Liquid Crystalline Nature, Polymers, 3(2), 861-874 (2011)
  • 122) H. D. Nguyen, X. Jin, D. Kaneko, T. Kaneko Syntheses of High Molecular Weight Poly(L-phenyllactic acid)s by a Direct Polycondensation in the Presence of Stable Lewis Acids, Chem. Lett. 40(6), 584 -585 (2011)
  • 121) K. Yasaki, T. Suzuki, K. Yazawa, D. Kaneko, T. Kaneko Effects of Double Photoreactions on Polycoumarate Photomechanics, J. Polym. Sci. Part A Polym. Chem. 49(5), 1112?1118 (2011)
  • 120) 金子達雄, 王思乾, 矢崎克明, 桂皮酸誘導体を用いた高性能カーボンマイナスプラスチック, バイオプラジャーナル, 42, 20-25 (2011)
  • 119) 岡島麻衣子, 立山誠治, 金子達雄, 日本固有のバイオマス資源「サクラン」の魅力」―レアメタル問題から医療品開発まで、広がる可能性-, 化学, 66(8), 22-25 (2011)

2010年以前

  • 118) 金子達雄, 王 思乾, 藤原 佳, 金子大作, フェノール酸の無溶媒重合による高性能バイオプラスチックの開発, ネットワークポリマー, 31(5), 256-261 (2010)
  • 117) M. Okajima, T. Higashi, R. Asakawa, T. Mitsumata, D. Kaneko, T. Kaneko, T. Ogawa, H. Kurata, S. Isoda, Gelation behavior by the lanthanoid adsorption of the cyanobacterial extracellular polysaccharide, Biomacromolecules, 11(11), 3172-3177 (2010).
  • 116) D. Kaneko, Q. T. Nguyen, T. Shimoda, T. Kaneko, Preparation Methods of Alginate Micro Hydrogel particles and Evaluation of their Electrophoresis Behavior for Possible Electric Paper Ink Application, Polym. J. 42, 829-833 (2010)
  • 115) M.K.Okajima, M.Nakamura, T.Mitsumata, T.Kaneko, Cyanobacterial Polysaccharide Gels with Efficient Rare-Earth-Metal Sorption, Biomacromolecules, 11(7), 1773?1778 (2010)
  • 114) D.Kaneko, K.Matsumoto, T.Kaneko, Terminally-Catecholized Hyper-Branched Polymers with High Performance Adhesive CharacteristicsPlant Biotechnology, Plant Biotech. 27, 293-296 (2010)
  • 113) T.Kaneko, D.Kaneko, S.Wang, High-Performance Lignin-Mimetic Polyesters Plant Biotech. 27, 243-250 (2010)
  • 112) S.Edo, K.Okoshi, S.Kang, M.Tokita, T.Kaneko, J.Watanabe, Unusual Swelling of HPC in Toluene Forming a Microspherical Domain Structure that Causes Christiansen Scattering Coloration, Langmuir, 26(3), 1743?1746 (2010).
  • 111) M.K.Okajima, S.Miyazato, T.Kaneko, Chemically Cross-Linking Effects on the Sorption of Heavy Metal Ions to Hydrogelsof Cyanobacterial Megamolecules, Sacran, Trans. MRS-J.,34(2), 359-362 (2009).
  • 110) M.K.Okajima, S.Miyazato, T.Kaneko, The Cyanobacterial Megamolecule Sacran Efficiently Forms LC Gels with Very Heavy Metal Ions, Langmuir, 25(15), 8526?8531 (2009).
  • 109) 岡島麻衣子, 日本固有種ラン藻由来「超巨大分子」の構造物性, 化学と生物, 47(5), 309-311 (2009).
  • 108) M. K. Okajima, D.Kaneko, T.Mitsumata, T.Kaneko, J.Watanabe, Cyanobacteria That Produce Megamolecules with Efficient Self-Orientations, Macromolecules, 42(8), 3057?3062 (2009) (表紙に掲載).
  • 107) 金子達雄, 堤 規彦, 金子大作, 天然分子に学ぶ革新的バイオマスポリマーの設計, マテリア, 48(4), 160-164 (2009).
  • 106) 金子達雄, 耐熱性が300℃を越える植物性プラスチックの開発, Polyfile, 45(8), 29-33 (2009).
  • 105) 金子達雄, 松本敬太郎, 金子大作, 耐熱温度300℃超の植物性樹脂, 自動車技術, 63(4), 88-93 (2009).
  • 104) D.J.Shi, T.Kaneko, M.Akashi, Particulation of hyperbranched aromatic biopolyesters self-organized by solvent transformation in ionic liquids, Langmuir, 25(5), 3321-3322 (2009).
  • 103) 金子達雄, 岡島麻衣子, スイゼンジノリ由来の高吸水性物質サクラン, 化学, 63(8), 75 (2008).
  • 102) D.J.Shi, M.Matsusaki, T.Kaneko, M.Akashi, Photo-Crosslinking and Cleavage Induced Reversible Size Change of Bio-Based Nanoparticles, Macromolecules, 41(21), 8167-8172 (2008)
  • 101) A.Lertworassirikul, Y.Arikawa, T.Kaneko, T.Kida, M.Akashi, Preparation of Flexible and Transparent Polylactic Acids Films by Crystallization Manipulation, J.Polym.Sci.A Polym.Chem., 46(19), 6489-6495 (2008).
  • 100) 金子達雄, 植物由来で高耐熱を実現する自己発泡樹脂, プラスチックス, 59(8), 51-54, (2008).
  • 99) M.Okajima, T.Bamba, Y.Kaneso, K.Hirata, S.Kajiyama, E.Fukusaki, T.Kaneko, Supergiant Ampholytic Sugar Chains with Imbalanced Charge Ratio Form Saline Ultra-absorbent Hydrogels, Macromolecules,41(12), 4061-4064 (2008).
  • 98) D.Kaneko, K.Shibata, T.Kaneko, Y.Kawakami, Transportation of Micro Droplet on Oriented Liquid Crystal Surface, Liquid Crystals, 35(6), 661-664 (2008).
  • 97) T.Kaneko, T.Ishikura, Development of High-Performance Hybrid Resin of Lignin-Mimetic Polymers with Celluloses Trans. MRS-J., 33(2), 501-504 (2008).
  • 96) M.Okajima, S.Miyazato, T.Kaneko, Chemically Cross-Linked Gels Formed by Novel Supergiant Polysaccharide, Sacran, Trans. MRS-J., 33(2), 497-500 (2008).
  • 95) T.Mitsumata, M.Okajima, T.Kaneko, Electric Properties of Ionic Polysaccharide Sacran Aqueous Solutions, Trans. MRS-J., 33(2), 431-434 (2008).
  • 94) T.Asoh, M.Matsusaki, T.Kaneko, M.Akashi, Fabrication of Temperature-Responsive Bending Hydrogels with a Nanostructured Gradient, Adv.Mater., 20(11), 2080-2083 (2008).
  • 93) T.Mitsumata, C.Hasegawa, H.Kawada, T.Kaneko, J.Takimoto, Swelling and viscoelastic properties of poly(vinyl alcohol) physical gels synthesized using sodium silicate, Reat.Funct.Polym., 68(1), 133-140 (2008).
  • 92) H.T.Tran, M.Matsusaki, D.J.Shi, T.Kaneko, M.Akashi, Synthesis and Properties of Coumaric Acid Derivative Homopolymers, J.Biomater.Sci.Polymer Ed., 19,75-85 (2008).
  • 91) T. Kaneko, High-performance functional ecopolymers based on flora and fauna, Chemical Record, 7(4), 210-219 (2007).
  • 90) 金子達雄, Development of heat-resistant ecoplastics based on cinnamic acids, プラスチックエージ, 53(12), 97-102 (2007).
  • 89) M.Okajima, M.Ono, K.Kabata, T.Kaneko, Extraction of Novel Sulfated Polysaccharide from Aphanothece sacrum (Sur.) Okada, and its Spectroscopic Characterization, Pure Appl.Chem., 79(11), 2039-204 (2007).
  • 88) M.Okajima, D.Hayasaka, S.Miyazato, T.Kaneko, Macroscopic birefringence in liquid crystals from novel cyanobacterial polysaccharide with an extremely high molecular weight Proceeding of SPIE-International Congress on Optics and Optoelectronics, 6587, 658711/1-658711/8 8 (2007).
  • 87) T.Waku, M.Matsusaki, T.Kaneko, M.Akashi, PEG Brush Peptide Nanospheres with Stealth Properties and Chemical Functionality, Macromolecules, 40(17),6385-6392 (2007).
  • 86) T.Kaneko, T.Shimokuri, S.Tanaka, M.Akashi, Micromorphology Memory in Amphiphilic Polypeptides, Polym. J. 39(7), 737-744, (2007). (表紙に掲載)
  • 85) Y.Shigekura, H.Furukawa, W.Yang, Y.M.Chen, T.Kaneko, Y.Osada, J.P.Gong, Anisotropic Gelation Seeded by a Rod-Like Polyelectrolyte, Macromolecules, 40(7), 24772485 (2007).
  • 84) D.J.Shi, T.Kaneko, M.Akashi, Preparation of Hyperbranch Aromatic Biopolyesters Self-organized by Solvent Transformation into Ionic Liquids, Langmuir, 23(7), 3485-3488 (2007).
  • 83) 金子達雄, 北陸先端科学技術大学院大学マテリアルサイエンス研究科金子研究室, 成型加工, 19(2), 98-100 (2007).
  • 82) K.Hamada, T.Kaneko, M.Chen, M.Akashi, Size-Selective Material Adsorption Property of Polymeric Nanoparticles with Projection Coronas, Chem.Mater., 19(5), 1044-1052 (2007).
  • 81) T.Kaneko, H.T.Tran, M.Matsusaki, M.Akashi, Biodegradable LC Oligomers with Cranked Branching Points Form Highly-Oriented Fibrous Scaffold for Cytoskeletal Orientation, Chem.Mater., 18(26), 6220-6226 (2006).
  • 80) T.Kaneko, H.T.Tran, D.J.Shi, M.Akashi, Environmentally-Degradable, High-performance Plastics from Phenolic Phytomonomers, Nature Mater. 5(12), 966-970 (2006). (目次にグラフィック紹介)
  • 79) T.Shimokuri, T.Kaneko, M.Akashi, Effects of Thermoresponsive Coacervation on Hydrolytic Degradation of Amphipathic Poly(gamma-glutamate)s, Macromol.Biosci. 6(9), 942-951 (2006).
  • 78) T.Asoh, T.Kaneko, M.Matsusaki, M.Akashi, Rapid and Precise Release from Nano-Tracted Poly(N-isopropylacrylamide) Hydrogels Containing Linear Poly(acrylic acid), Macromol.Biosci., 6(9), 959-965 (2006). (裏表紙に掲載)
  • 77) B.Yao, H.Song, L.Lu, M.Chen, T.Kaneko, M.Akashi, Giant Spherulite Formation in Amorphous Polyanion Membrane by Photopolymerization on Gelatin Matrix, Chem.Lett., 35(11), 1228-1229 (2006).
  • 76) 金子達雄, 液晶高分子と細胞接着制御, 高分子, 55(8), 605 (2006).
  • 75) 金子達雄, 自然に学ぶ高性能生分解性プラスチックの開発, バイオマテリアル-生体材料-, 24(3), 202-208 (2006).
  • 74) T.Akagi, T.Kaneko, T.Kida, M.Akashi, Multifunctional Conjugation of Proteins on/into Bio-nanoparticles Prepared by Amphiphilic Poly(gama-glutamic acid), J.Biomater.Sci.Polym.Ed., 17, 875-892 (2006).
  • 73) T.Kaneko, T.Asoh, Y.Fukushige, M.Akashi, Water-Driven Thermoresponsive Peptohelical Cushion, Macromolecules, 39(6), 2298-2305 (2006).
  • 72) W.Yang, T.Kaneko, X.Liu, M.Q.Cheng, M.Akashi, Bulk Synthesis of Poly(tert-butyl methacrylate) Long Macromonomer with Narrow Distribution by Atom Transfer Radical Polymerization and Nucleophilic Substitution, Chem.Lett., 35(2), 222-223 (2006).
  • 71) M.Matsusaki, T.Waku, T.Kaneko, T.Kida, M.Akashi, One-Step Advanced Preparation of Surface-Functional Peptide Nanospheres by the Polymerization of L-Phenylalanine N-Carboxyanhydride with Dual Initiators, Langmuir, 22(4), 1396-1399 (2006).
  • 70) T.Akagi, M.Higashi, T.Kaneko, T.Kida, M.Akashi, Hydrolytic and Enzymatic Degradation of Nanoparticles Based on Amphiphilic Poly(gamma-glutamic acid)-graft-L-phenylalanine Copolymers, Biomacromolecules, 7(1), 297-303 (2006).
  • 69) T.Asoh, T.Kaneko, M.Matsusaki, M.Akashi, Rapid Deswelling of Semi-IPNs with Nanosized Tracts in Response to pH and Temperature, J.Control.Rel., 110(2), 387-394 (2006).
  • 68) M.Q.Chen, Y.H.Yuan, X.Y Liu, C.Yang, T.Kaneko, M.Akashi, Thermosensitive Particles with Unusual Morphology Prepared by Dispersion Copolymerization, Chem.Res.Chin.Univ., 21(6), 740-742 (2005).
  • 67) K.Hamada, T.Kaneko, M.Q.Chen, M.Akashi, One-Step Nanomorphology Control of Self-Organized Projection Coronas in Uniform Polymeric Nanoparticles, Polymer, 46(26), 12166-12171 (2005).
  • 66) T.Akagi, T.Kaneko, T.Kida, M.Akashi,, Preparation and characterization of biodegradable nanoparticles based on poly(gamma-glutamic acid) with L-phenylalanine as a protein carrier, J.Control.Rel.,108(2-3), 226-236 (2005).
  • 65) Y.Shigekura, Y.M.Chen, H.Furukawa, T.Kaneko, D.Kaneko, Y.Osada, J.P.Gong, Anisotropic Polyion-complex Gels from Template Polymerization, Adv.Mater., 17(22), 2695-2699 (2005).
  • 64) T.Kaneko, K.Hamada, Y.Kuboshima, M.Akashi, Reversible Thermoresponsive Aggregation/Deaggregation of Water-Dispersed Polymeric Nanospheres Exhibiting Structural Transformation, Langmuir, 21(21), 9698-9703 (2005).
  • 63) T.Akagi, M.Higashi, T.Kaneko, T.Kida, M.Akashi, In Vitro Enzymatic Degradation of Nanoparticles Prepared from Hydrophobically-Modified Poly(gamma-glutamic acid), Macromol.Biosci., 5(7), 598-602 (2005).
  • 62) 金子達雄, 明石 満, 環境適応型エンジニアリングプラスチックの開発, コンバーテック, 391(10), 38-43 (2005).
  • 61) 金子達雄, 生体温度で機能する液晶ゲルソフトアクチュエーターの開発, 高分子論文集, 62(8), 373-379 (2005).
  • 60) M.Matsusaki, T.Fuchida, T.Kaneko, M.Akashi, Self-Assembling Bio-Nanoparticles of Poly(epsilon-lysine) Bearing Cholesterol as a Biomesogen with a Thermotropic Liquid-Crystalline Nature, Biomacromolelules, 6(4), 2374-2379 (2005).
  • 59) T.Kaneko, M.Higashi,M.Matsusaki,T.Akagi,M.Akashi Self-Assembled Soft Nanofibrils of Amphipathic Polypeptides and their Morphological Transformation Chem.Mater.17(10),2484-5486,2005.
  • 58) T.Kaneko,K.Hamada,M.Q.Chen,M.Akashi Soft Nanoparticles with Projection Coronas Forms Homo-assembled Three-Dimensional Microconstructs Adv.Mater.17(13),1638-1643,2005.
  • 57) M.Matsusaki,T.T.Hang,T.Kaneko,M.Akashi Enhanced Effects of Lithocholic Acid Incorporation into Liquid Crystalline Biopolymer Poly(Coumaric Acid) on Structural Ordering and Cell Adhesion Biomaterials 26(32),6263-6270,2005.
  • 56) T.Kaneko,S.Tanaka,A.Ogura,M.Akashi Tough, Thin Hydrogel Membranes with Giant Crystalline Domains Composed of Precisely-Synthesized Macromolecules Macromolecules 38(11),4861-4867,2005.
  • 55) X.Wang,T.Uto,K.Sato,K.Ide,T.Akagi,M.Okamoto,T.Kaneko,M.Akashi,M.Baba Potent Activation of Antigen-Specific T cells by Antigen-Loaded Nanospheres Immunol.Lett. 98(1),123-130,2005.
  • 54) T.Kaneko,T.Asoh,M.Akashi Highly Stimuli-Sensitive Drug Release System. PNIPAAm Hydrogels Perforated Using Silica Nanoparticle Networks Show Ultra-Rapid Deswelling and Molecular Release. Macromol.Chem.Phys.206,566-574,2005.
  • 53) M.Q.Chen,K Zhang,T.Kaneko,X.Y.Liu,J.Cai,M Akashi Solvent-Sensitive Nanospheres Prepared by the Self-Organization of Polymerizing Hydrophilic Graft Chain Copolymers Polym. J.37(2),118-125,2005.
  • 52) M.Hua,T.Kaneko,X.Liu,M.Chen,M.Akashi Successful ATRP Syntheses of Amphiphilic Block Copolymers Poly(styrene-block-N ,N-dimethylacrylamide) and Their Self-assembly Polym.J.37(2),59-64,2005.
  • 51) S.Tanaka,A.Ogura,T.Kaneko,Y.Murata,M.Akashi Adhesion Behavior of Peritoneal Cells on the Surface of Self-Assembled Triblock Copolymer Hydrogels Biomacromolecules5(6),2447-2455,2004.
  • 50) T.Kaneko,D.Ogomi,R.Mitsugi,T.Serizawa,M.Akashi Mechanically Drawn Hydrogels Uniaxially Orient Hydroxyapatite Crystals and Cell Extension Chem.Mater.16(26),5596-5601,2004.
  • 49) T.Shimokuri,T.Kaneko,M.Akashi Specific Thermosensitive Volume Change of Biopolymer Gels from Propylated Poly(gamma-glutamate)s J. Polym. Sci. A Polym. Chem.42(18),4492-4501,2004.
  • 48) T.Kaneko,K.Yamaoka,Y.Osada,J.P.Gong Thermoresponsive Shrinkage Triggered by Mesophase Transition in Liquid Crystalline Physical Hydrogels Macromolecules 37(14),5385-5388,2004.
  • 47) T.Funaki,T.Kaneko,K.Yamaoka,Y.Ohsedo J.P.Gong,Y.Osada,Y.Shibasaki,M.Ueda Lyotropic Mesomorphism of Rigid-Rod Aromatic Polyelectrolytes Langmuir 20(15),6518-6520,2004.
  • 46) T.Kaneko,S.Shimomai,M.Miyazaki,M.Baba,M.Akashi IgG Responses to Intranasal Immunization with Cholera Toxin-Immobilized Polymeric Nanospheres in Mice J.Biomater.Sci.,Polym.Ed. 15(5),661-669,2004.
  • 45) T.Tada,D.Kaneko,J.P.Gong,T.Kaneko,Y.Osada. Surface Friction of Poly(Dimethyl Siloxane) Gel and its Transition Phenomenon Tribology Letters17(3),505-511,2004.
  • 44) M.Matsusaki,K.Hiwatari,M.Higashi,T.Kaneko,M.Akashi Stably-Dispersed and Surface-Functional Bionanoparticles Prepared by Self-Assembling Amphipathic Polymers of Hydrophilic Poly(gamma-glutamic acid) Bearing Hydrophobic Amino Acids Chem.Lett.33(4),398-399,2004.
  • 43) T.Shimokuri, T.Kaneko,T.Serizawa,M.Akashi Preparation and Thermosensitivity of Naturally Occurring Polypeptide Poly(gamma-glutamic acid) Derivatives Modified by Propyl Groups Macromol.Biosci. 4,407-411,2004.
  • 42) T.Kaneko,M.Matsusaki,T.T.Hang,M.Akashi Thermotropic Liquid Crystalline Biopolymer Derived from Natural Cinnamoyl Monomers Macromol.Rapid Commun.25,673-677,2004.
  • 41) S.Tanaka,A.Ogura,T.Kaneko,Y.Murata M.Akashi Precise Synthesis of ABA-Triblock Copolymers Comprised of Poly(ethylene oxide) and Poly (beta-benzyl-L-aspartate): A Hierarchical Structure Inducing Excellent Elasticity Macromolecules 37(4),1370-1377,2004.
  • 40) T.Kaneko,H.Nagasawa,J.P.Gong,Y.Osada Liquid Crystalline Hydrogels. Mesomorphic Behavior of Amphiphilic Polyacrylates Bearing Cholesterol Mesogen Macromolecules 37(1),187-191,2004.
  • 39) T.Kaneko,K.Hamada,M.Q.Chen,M.Akashi One-step Formation of Morphologically Controlled Nanoparticles with Projection Coronas Macromolecules 37(2),501-506,2004.
  • 38) 金子達雄 環境循環型高分子とは バイオマテリアル-生体材料-  21(1),68,2003.
  • 37) 金子達雄,馬場昌範,明石 満 高分子ナノスフェアを用いるエイズワクチンの開発 生物工学  81,182-186,2003.
  • 36) M.-Q.Chen,Y.Chen,T. Kaneko,X.-Y.Liu,Y.Cheng,M.Akashi Pb2+ Specific Adsorption/Desorption onto Core-Corona Type Polymeric Nanospheres Bearing Special Anionic Azo-chromophore Polym.J.35(8),688-690,2003.
  • 35) M.-Q.Chen,T.Kaneko,M.Zhang,X.-Y.Liu,K.Wu,M.Akashi Preparation of Uniform Nanospheres with a Hydrophilic Core and a Hydrophobic Corona by the Macromonomer Method Chem.Lett.32(12),1138-1139,2003.
  • 34) T.Kaneko,A.Ichikawa,J.P.Gong,Y.Osada Giant Needle Formation of Polycations-Bile Acids Complex Macromol.Rapid Commun.24(13),789-792,2003.
  • 33) K.Yamaoka,T.Kaneko,J.P.Gong,Y.Osada Liquid Crystalline Gels 4. Water- and Tension-Induced Mesophase Transition Langmuir 19(20),8134-8136,2003.
  • 32) 金子達雄 日本列島縦断高分子研究の旅 高分子  52(4),281,2003.
  • 31) E.-C.Kang,T.Kaneko,D.Shiino,M.Akashi Novel Functional Polymers: Poly(dimethylsiloxane)-Polyamide Multiblock Copolymers XI. Effects of Sequence Regularity on Thermal and Mechanical Properties J.Polym.Sci. A Polym.Chem.41(6),841-852,2003.
  • 30) T.Serizawa,K.Wakita,T.Kaneko,M.Akashi Thermoresponsive Properties of Porous Poly(N-isopropylacrylamide) Hydrogels Prepared in the Presence of Nano-Sized Silica Particles and Subsequent Acid Treatment J.Polym.Sci.A Polym.Chem.40(23),4228-4235,2002.
  • 29) 金子達雄 バイオインスパイアードシステムによる生分解性高分子上におけるアパタイト結晶の形状制御化学と工業 55(11),1257,2002.
  • 28) 金子達雄 液晶性ウイルスは量子ドットの設計士 化学 57(8),53-54,2002.
  • 27) T.Serizawa,M.Uemura,T.Kaneko,M.Akashi Rapid and Controlled Deswelling of Porous Poly(N-isopropylacrylamide) Hydrogels Prepared by Templating of Interpenetrated Nano-Porous Silica Particles J.Polym.Sci.A Polym.Chem.40(20),3542-3547,2002.
  • 26) Y.Imai,M.Shiratori,T.Inoue,M.Kakimoto Synthesis and properties of new aromatic polysquaramide by solid-state thermal polycondensation of salt monomer composed of squaric acid and bis(4-aminophenyl) ether J.Polym.Sci.A Polym.Chem.40(15),2648-2655,2002.
  • 25) Y.Katsuyama,T.Kurokawa,N.Yotsukura,T.Motomura,T.Kaneko,J.P.Gong,Y.Osada Inhibitory Effects of Hydrogels on the Adhesion, Germination, and Development of Laminaria Angustata Originated Zoospores Macromol.Biosci.2(4),163-169,2002.
  • 24) L.Chen,T.Kaneko,J.P.Gong,Y.Osada,Y.Ohsedo,Y.Shirota Crystalline Structure and Thermal Behavior of Water-Soluble Copolymers with Pendant Terthiophenes Macromol.Chem.Phys.203(1),176-181,2002.
  • 23) M.Q.Chen,T.Kaneko,C.H.Chen,M.Akashi Preparation of “Confetti” Particles by Dispersion Copolymerization of Acrylonitrile/Styrene with Poly(ethylene glycol) Macromonomer Chem.Lett.12,1306-1307,2001.
  • 22) A. S.Dilmen,Z.Mustafaeva,M.Demchenko,T.Kaneko,Y.Osada,M.Mustafaev Water-soluble covalent conjugates of bovine serum albumin with anionic poly(N-isopropyl-acrylamide) and their immunogenicity Biomaterials 22,2383-2392,2001.
  • 21) T.Miyazaki,T.Kaneko,J.P.Gong,Y.Osada Effects of Carboxyls Attached at Alkyl Side Chain Ends on the Lamellar Structure of the Hydrogels Macromolecules 34(17),6024-6028,2001.
  • 20) T.Kaneko,K.Yamaoka,J.P.Gong,Y.Osada Liquid Crystalline Hydrogels 2. Effects of Water on the Structural Ordering Macromolecules 33(12),4422-4426,2000.
  • 19) T.Miyazaki,T.Kaneko,J.P.Gong,Y.Osada,M.Demura,M.Suzuki Water-Induced Crystallization Hydrogels Langmuir 34(17),6024-6028,2001.
  • 18) A.Matsuda,T.Kaneko,J.P.Gong,Y.Osada Fluorinated Water-Swollen Hydrogels with Molecular and Supra-Molecular Organization Macromolecules 33(7),2535-2538,2000.
  • 17) T.Miyazaki,K.Yamaoka,T.Kaneko,J.P.Gong,Y.Osada Hydrogels with the Ordered Strucutres Sci.Tech.Adv.Mater.1,201-210,2001.
  • 16) A.Matsuda,Y.Katayama,T.Kaneko,J.P.Gong,Y.Osada Ionization and Order-Disorder Transition of Hydrogels with Ionizable Hydrophobic Side Chain J.Mol.Struct.554,91-97,2000.
  • 15) T.Kaneko,K.Yamaoka,J.P.Gong,Y.Osada Liquid Crystalline Gels 3. Role of Hydrogen Bonding on the Formation and Stabilization of Mesophase Structures Macromolecules 34(5),1470-1476,2001.
  • 14) T.Kaneko,K.Yamaoka,J.P.Gong,Y.Osada Liquid Crystalline Hydrogels 1. Enhanced Effects of Incorporation of Acrylic Acid Units on the Liquid Crystalline Ordering Macromolecules 33(2),412-418,2000.
  • 13) T.Kaneko,S.Orita,J.P.Gong,Y.Osada Complexation and Crystallization of Anionic Phthalocyanine with Soluble and Crosslinked Polycations Langmuir 15(17),5670-5675,1999.
  • 12) M.Yoshida,H.Horikawa,K.Katsuse,M.Iwakoshi,M.Yoshida,Y.Osada,J.P.Gong,T.Kaneko, K.Kitai,Y.Nagashima,N.Kato,H.Kanazawa,H.Takahashi,N.Koizumi Development and application of shape-memory polymer gel (Part I) -synthesis and processing of shape-memory polymer gel Hokkaidoritsu Kogyo Shikenjo Hokoku 298,49-56,1999
  • 11) H.Horikawa,K.Katsuse,M.Yoshida,M.Iwakoshi,M.Yoshida,Y.Osada,J.P.Gong,T.Kaneko,K.Kitai, Y.Nagashima,N.Kato,M.Inui,K.Yahata,M.Kagawa,H.Kanazawa,H.Takahashi,N.Koizumi Fabrication of Shape-Memory Polymer Gel Hybridized with Inorganic Particulates. Hokkaidoritsu Kogyo Shikenjo Hokoku298,57-60,1999.
  • 10) 金子 達雄,長田 義仁 高度刺激応答材料-形状記憶ゲル- 化学工業 50(7),50-57,1999.
  • 9) H.W.Huang,T.I.Kaneko,K.Horie,J.Watanabe Fluorescence Study on Intermolecular Complex Formation between Mesogenic Terphenyldiimide Moieties of a Thermotropic Liquid-Crystalline Polyimide Polymer 40,3821-3828,1998.
  • 8) Y.Imai,T.Fueki,T.Kaneko,M.Kakimoto Successful Synthesis of A 1:1 Salt Monomer Derived from Bis84-aminophenyl)ether and Pyromellitic Acid for Direct Polycondensation to An Aromatic Polyimide J.Polym.Sci.Part A Polym.Chem.36(8),1341-1344,1998.
  • 7) Y.Imai,T.Fueki,T.Kaneko,M.Kakimoto A New Direct Preparation of Electroconductive Polyimide/Carbon Black Composite via Polycondensation of Nylon-Salt-Type Monomer/Carbon Black Mixture J.Polym.Sci.Part A Polym.Chem.36(6),1031-1034,1998.
  • 6) M.Goyal,T.Kaneko,M.Kakimoto,Y.Imai High-Pressure Synthesis and Properties of Aliphatic-Aromatic Polyimides via Nylon-Salt-Type Monomers Derived from Aliphatic Diamines and Benzophenonetetracarboxylic Acid J.Polym.Sci.Part A Polym.Chem.36(1),39-47,1998.
  • 5) T.I.Kaneko,K.Imamura,J.Watanabe Reversible Crystal Deformation Observed in the Main-Chain Type of Liquid Crystalline Polyimide Macromolecules 30(14),4244-4246,1997.
  • 4) T.Kaneko,Y.Kumagai,M.Kakimoto,Y.Imai,J.Watanabe High-Pressure Synthesis and Properties of Aliphatic-Aromatic Polyimides via Nylon-Salt-Type Monomers Derived from Aliphatic Diamines with Pyromellitic Acid and Biphenyltetracarboxylic AcidMacromolecules 30(7),1921-1929,1997.
  • 3) T.Kaneko,J.Watanabe,M.Kakimoto,Y.Imai Synthesis of Simple Main-Chain Type Polyimides Derived from Aliphatic Diamines and 4,4”-Terphenyltetracarboxylic Acid, and Their Thermotropic Liquid Crystalline BehaviorMacromol. Chem. Phys. 198(2),519-530,1997.
  • 2) T.Kaneko,J.Watanabe,M.Kakimoto,Y.Imai First Simple Thermotropic Liquid Crystalline Polyimides Derived from Aliphatic Diamines and 4,4”-Terphenyltetracarboxylic Acid J.Photopolym.Sci.Tech.8(2),299-306,1995.
  • 1) T.Kaneko,M.Kakimoto,Y.Imai,J.Watanabe First Observation of a Thermotropic Liquid Crystal in a Simple Polyimide Derived from 1,11-Diaminoundecane and 4,4”-Terphenyltetracarboxylic Acid, Macromolecules 28(18),6368-6370,1995.

著書

  • B1) 渡辺順次、金子達雄「液晶性ポリイミド」 最新ポリイミド~基礎と応用~ 第3編・第2章 409頁-416頁、2002年、日本ポリイミド研究会/編 今井淑夫・横田力男/編著 エヌ・ティー・エス
  • B2) 渡辺順次、金子達雄「液晶性ポリイミド」 最新ポリイミド~基礎と応用~第3編・第2章 409頁-416頁、2002年、日本ポリイミド研究会/編 今井淑夫・横田力男/編著 He Fei-Feng, Wu Zhongwen/中国語訳 NTS
  • B3) 金子達雄、明石満「バイオ高分子ゲルナノハイブリッド」 ナノハイブリッド材料の最新技術 第2章・第7項 145頁-154頁、2005年、シー・エム・シー出版.
  • B4) 金子達雄、明石満「ウイルス型ナノ粒子の形状制御とバイオ素子」 “ファイバー” スーパーバイオミメティクス ~近未来創造テクノロジー~ 第6編・第1章・第4節、本宮達也/監修、2006年、エヌ・ティー・エス出版
  • B5) 金子達雄、岡島麻衣子「ラン藻バイオマスを用いたクリティカルメタル吸着と回収技術への展望」 環境・資源保全のためのメタルバイオテクノロジー ~新元素戦略の新しいキーテクノロジー~, 第4章・第7節, 138-143頁, 2009年, CMC出版
  • B6) 椛田聖孝、金子達雄、新発見サクランと伝統のスイゼンジノリ、2009年、ふるさと文庫、ハート出版
  • B7) 金子達雄、岡島麻衣子「サクランゲルを用いたレアメタル回収」 レアメタル・希少金属リサイクル技術の最先端 -ナノ・有機・メタラジーが広げるリサイクル技術-第5章・第3節 162-172ページ、2011年、フロンティア出版
  • B8) 金子達雄 スイゼンジノリ アラマタ生物事典 監修:荒俣宏 講談社 pp120 (2011).
  • B9) T. Kaneko, High-Performance Polymers from Phenolic Biomonomers, Green Polymerization Methods: Renewable Strarting Materials, Catalysis and Waste Reduction (R.T.Mathers and M. A. R.Meier Eds), Chapter 12, pp 265-290, WILEY-VCH, Weinheim (2011).
  • B10) Kai Kan, 金子達雄「高性能・高機能植物分子由来プラスチックの開発」植物由来ポリマー・複合材料の開発 第1章・第5節 36-47ページ、2011年、サイエンス&テクノロジー
  • B11) 立山誠治、金子達雄 高耐熱植物由来プラスチックの開発 樹脂材料の高耐熱化と設計・開発技術 情報機構 第5章・第1節 2013年
  • B12) 金子達雄 高耐熱・高機能バイオプラスチックの開発 バイオプラスチック技術の開発動向と市場展開シーエムシー・リサーチ 第5章 pp129-152 2015年
  • B13) Md. A. Ali, T. Kaneko, Polyamide Synthesis Encyclopedia of Polymeric Nanomaterials (K. Mullen, C. Pugh, and S. Kobayashi Eds) Springer-Verlag, pp1750-1762 (2015).
  • B14) 金子達雄、劉 貴生 「バイオポリイミドの開発と有機無機複合化による透明メモリーデバイスの作製」  ポリイミドの機能向上技術と応用展開 第4編 第10章 2017年 シー・エム・シー出版.
  • B15) 金子達雄、岡島麻衣子 「驚愕の「超」超巨大分子サクラン-常識を覆す次世代マテリアル-」 スイゼンジノリとサクランの魅力 第4章 サクラン研究会 編 2017年 熊日出版
  • B16) 高田健司、金子達雄 アミノ酸をベースとした高耐熱・高強度・高透明性バイオプラスチックの開発、高耐熱高分子材料の最新技術動向 第1章総論、50-59、(2018) シー・エム・シー出版
  • B17) 高田健司、金子達雄 高強度・高耐熱・高透明性バイオプラスチックの開発、自動車への展開を見据えたガラス代替樹脂開発 第 4 章 45-53 (2018)  シー・エム・シー出版
  • B18) 高田健司、金子達雄 微生物生産新奇物質をベースとした高性能バイオプラスチックとその可能性、次世代のポリマー・高分子開発、新しい用途展開と将来展望、503-512、(2019) 株式会社技術情報協会
  • B19) 高田健司、金子達雄 光機能化された桂皮酸系バイオポリマー、光機能性有機・高分子材料における新たな息吹 第 6 編 光機能性ポリマー第 2 章 209-216 (2019)  シー・エム・シー出版
  • B20) 高田健司、金子達雄 光と熱で二重に形状記憶可能なバイオベースポリエステルフィルム, 自己修復・形状記憶材料の開発と応用事例 第7章 形状記憶を利用したマテリアルの開発とその特性 第5章 (2019) 印刷中 株式会社技術情報協会
  • B21) 金子達雄、岡島麻衣子 イタコン酸を用いたバイオナイロンの合成と生分解性「生分解性プラスチックの分解機構と環境配慮設計・高機能化」第IV編 第2章 CMC (2019).
  • B22) 金子達雄、Md. A. Ali、岡島麻衣子 高耐熱性分解性プラスチック材料の開発 「海洋プラスチック汚染問題の解決を目指す生分解性プラスチックの素材・技術最前線」第2編 第3章 第6節 NTS (2019)
  • B23) 高田健司、金子達雄 形状記憶高分子, 高分子材料の事典 8 基礎編(機能) 8-3力学機能 朝倉書店 印刷中 (2020)