@techreport{oai:soar-ir.repo.nii.ac.jp:00014593,
 author = {平井,  利博 and lslamHamidal,  Md. and 高田,  崇志 and 渡辺,  真志 and 木村,  睦 and 濱田,  州博 and 藤井,  敏弘 and 白井,  汪芳},
 month = {Mar},
 note = {CNT has a potential as an electrode material because of its fibrous morphology and excellent electrical conductivity. This is the point we mentioned. Particularly, it can be expected to be effective for dielectric polymeric materials that we have been working. In this project, we aimed the development of high performance electrode material, in which the employment of electrospinning technique is included. Electrospinning has been revealed to provide a fine fiber with diameter of sub micron range. In 2003, we clarified the effectiveness of CNT as an electrode on dielectric polymer surfaces. It could enhance the deformation by ca.10 times or more, depending on the sample. The arrangement of CNT on the sample surface plays critical effect-on the motility of dielectric materials by applying an electric field. The materials we successfully activated were silicone gel, poly(methyl methacrylate) and polyurethanes., Article, 先進ファイバー工学研究教育拠点研究成果報告書 10: 68-68(2004)},
 title = {15-3-2 :ナノファイバーを用いた高性能駆動材料の開発と駆動機構の開発},
 year = {2004}
}