University of Fukui Researcher Information
Faculty of Engineering
Division of Engineering
Frontier Fiber Technology and Science
日本語
Update date:2025/04/29
Professor
HISADA Kenji

University of Fukui Faculty of EngineeringDivision of Engineering Frontier Fiber Technology and Science Professor

Education

  1. 1991GraduatedKyoto Institute of TechnologyIndustrial Chemistry
  2. 1996Accomplised credits for doctoral programKyoto UniversityGraduate School, Division of Engineering高分子化学Doctor

Degree

  1. 工学博士

Research History

  1. 1996- Research Associate, Faculty of Engineering, Fukui University 1998-1999 Researcher, Fukui Regional Science Promotion Program 1999-2000 Post Doctoral Fellow, University of California Los Angeles 2003- Researcher, Promotion of the Business-Academic-Public Sector Cooperation Centering on University, MEXT 2003- Researcher, Regional Rebirth Project. NEDO

Professional Memberships

  1. 2008/04/01-2025/03/31ラドテック研究会
  2. 2004-2017/03/31(独)日本学術振興会繊維・高分子機能加工第120委員会
  3. 2001-2001繊維学会 
  4. 1998-2017/03/31繊維学会 
  5. 1998-1999繊維学会 
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Research Areas

  1. Nanotechnology/MaterialsThin film/surface and interfacial physical properties
  2. Nanotechnology/MaterialsFundamental physical chemistry
  3. Nanotechnology/MaterialsPolymer chemistry

Research Interests

  1. supermolecule, ultra-thin film, interface
  2. organic film, atomic force microscopy, tribology
  3. cyclodextrin, calixarene, supermolecule, drug release

Subject of Research

  1. 高分子LB膜中における光物理過程1993
  2. Photophysical processes in the polymer LB films1993
  3. ポリグルタメートLB膜中での光誘起電子移動1996
  4. Photo-induced electron transfer in the polyglutamate LB films1996
  5. Mechanical properties of the organic thin films1998
  6. 有機薄膜の力学特性1998
  7. 両親媒性超分子を用いた超薄膜の調製と機能化1999
  8. Organization and Functionalization of supramolecular assembly films1999
  9. 電子線を用いた高分子・繊維材料の表面改質2008-2011
  10. 包接化合物を用いた機能表面の作製

Papers

  1. Effect of Scouring and Bleaching on Chemical Modification of Cotton Sliver by EB-Induced Graft Polymerization2020/04/20Takuya Honda, Wataru Sakai, Koji Miyazaki, Kenji HisadaJournal of Fiber Science and Technology76/ 4, 119-12610.2115/fiberst.2020-0012The Society of Fiber Science and Technology
  2. Ethnic variations in IRS keratins alter the interaction between the keratins2020/03/06Hiroshi Yoshida, Junko Kitano‐Yuki, Kenji HisadaJournal of Dermatology59/ 4, e120-e12210.1111/ijd.14752Repository
  3. Condensed layer of n-alkanes induced by adsorbed layer on metal/alkane interface2019/09/01Kenji HisadaCondensed layer of n-alkanes induced by adsorbed layer on metal/alkane interface120委員会年次報告
  4. Molecular-weight-dependent durability of polyelectrolyte-surfactant complex films prepared through sequential deposition2018/09/01Kenji Hisada繊維・高分子機能加工第120委員会 年次報告書69
  5. Tribological Behavior of Polymer-Surfactant Complex Monolayers Prepared from Poly(Dimethyldiallylammonium chloride) and Anionic Surfactants2017HISADA Kenji;YAMAMOTO Taishi;YAMASHITA TomohiroKOBUNSHI RONBUNSHU74/ 1, 41-480386-2186URLThe Society of Polymer Science, JapanMonolayers were prepared from a polymer-surfactant complex (PSC) with a cationic polyelectrolyte, poly(dimethyldiallylammonium chloride) (PDMDAAC), and anionic surfactants, sodium dodecyl sulfate (SHS) or hexadecanoic acid (C16A). The monolayers were characterized by surface pressure (π) – area (A) isotherms, Brewster angle microscopy (BAM) and X-ray photoelectron spectroscopy (XPS). The PSC monolayers were deposited onto glass substrates with the Langmuir-Blodgett technique and their tribological behavior was evaluated. Friction coefficients for PSC-covered substrates were 0.04–0.07, which was similar to those for substrates covered by low-molecular C16A or neutral poly(hexadecyl acrylate) (PHDA). When PSC-covered substrates were scratched with stainless bars, they began to wear after 734 laps for SHS/PDMDAAC films and 1057 laps for C16A/PDMDAAC films, which were superior to those of C16A films (67 laps) and PHDA films (331 laps).Repository
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Books

  1. 光化学の事典Kenji Hisada5.4光機能材料 ⑥蛍光染料・蛍光増白剤(漂白剤)2014/06/20978-4-254-14096-5
  2. 光化学の事典Kenji Hisada5.2 ディスプレイ・表示 ④暗闇で光る―化学発光,蓄光材料―2014/06/20978-4-254-14096-5
  3. 機能性繊維の最新技術堀 照夫, 久田 研次Textile finishing using super critical carbon dioxide fluidCMC出版2009/06978-4-7813-0121-1
  4. Kino Busshitsu no Shusekimaku to Oyo TenkaiK.HisadaTribology of molecular membraneShi Emu Shi Shuppan2006/064-88231-570-X
  5. Polymer Surface Modification and Polymer Coating by Dry Process TechnologiesM.Miyazaki, Y.Aoyagi, K.Hisada, T.HoriSurface Modification of Polymer Films by UV Laser IrradiationResearch Signpost2005
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Presentations

  1. Polyelectrolyte Multilayer Deposition on Polyethylene Terephthalate Activated by Photobase GeneratorInternational Symposium on Fiber Science and Technology 20242024/11/27URL
  2. Dynamic Characterization of Corrosion Inhibitor Adlayer through Complex Impedance MeasurementThe 75th Divisional Meeting of Division of Colloid and Surface Chemistry2024/09/17
  3. Interaction of molecular adlayer formed on aluminium surface with bukl phaseThe 75th Divisional Meeting of Division of Colloid and Surface Chemistry2024/09/17
  4. If the title of your presentation is in European language, the first letter of the word should be capitalized.  If the title is in European language, the first letter of the word should be capitalized.2023 年度繊維学会年次大会2023/06/14
  5. If the title of your presentation is in European language, the first letter of the word should be capitalized.  If the title is in European language, the first letter of the word should be capitalized.第70回高分子学会北陸支部 若手会2021/12/17
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Industrial Property Rights

  1. 超分子薄膜の製造方法特願2002-2744712004/04特開2004-1058962004/04
  2. 超分子薄膜の製造方法2002特願2002-274471, 久田 研次, 徳永 雄次2002
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Awards

  1. 2007平成19年度全国繊維技術交流プラザ優秀賞(独立行政法人科学技術振興機構・重点地域研究推進プログラム成果物として)スキンケアレディースウェア(独立行政法人科学技術振興機構・重点地域研究推進プログラム成果物)
  2. 2002Award for Encouragement of Research in Polymer Science
  3. 2002平成14年度高分子研究奨励賞
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Grant-in-Aid for Scientific Research and Health,Labour and Welfare Sciences

  1. 2020Japan Society for the Promotion of ScienceGrants-in-Aid for Scientific Research固液界面に吸着した分子膜に起因する層構造の成長過程と潤滑への寄与の解明基盤研究(C)(一般)
  2. 2019Japan Society for the Promotion of ScienceGrants-in-Aid for Scientific Research固液界面に吸着した分子膜に起因する層構造の成長過程と潤滑への寄与の解明基盤研究(C)(一般)
  3. 2018Japan Society for the Promotion of ScienceGrants-in-Aid for Scientific Research固液界面に吸着した分子膜に起因する層構造の成長過程と潤滑への寄与の解明基盤研究(C)(一般)
  4. 2013Japan Society for the Promotion of ScienceGrants-in-Aid for Scientific Research単分子吸着膜と鎖状分子により形成される界面不動層の赤外反射分光法による特性解析基盤研究(C)(一般)
  5. 2012Japan Society for the Promotion of ScienceGrants-in-Aid for Scientific Research単分子吸着膜と鎖状分子により形成される界面不動層の赤外反射分光法による特性解析基盤研究(C)(一般)
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Joint research

  1. 2007有機固体表面の力学特性に関する研究
  2. 2007包接能化合物固定化技術の開発とその加工プロセスの実用化
  3. 2006放射線グラフト重合を利用したポリ乳酸材料の機能化
  4. 2005ナノめっき技術による機能性微粒子の創製と新型燃料電池システムの開発      ・単粒子高分散技術とナノめっき技術による新規微粒子材料創製と電池材料への応用
  5. 2005ナノめっき技術による機能性微粒子の創製と新型燃料電池システムの開発      ・単粒子高分散技術とナノめっき技術による新規微粒子材料創製と電池材料への応用
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Contract research

  1. 2007銅めっきアラミド繊維を導体に用いた軽量・高抗張力ケーブルの開発
  2. 2006銅めっきアラミド繊維を導体に用いた軽量・高抗張力ケーブルの開発(WG4)
  3. 2005ナノめっき技術による機能性微粒子の創製と新型燃料電池システムの開発  ・単粒子高分散技術とナノめっき技術による新規微粒子材料創製と電池材料への応用
  4. 2004光照射による薬剤徐放システムの開発
  5. 2004連続生産を目指した電子線グラフト重合法による繊維機能化技術の開発
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