准教授 (Associate Professor) 4児の父
専門分野:高分子エレクトロニクス (Polymer Electronics) / スマートテキスタイル (Smart Textile) / 繊維成形加工 (Fiber Processing)
学位:マテリアルサイエンス博士 (北陸先端科学技術大学院大学) Ph.D. in Materials Science, Japan Advanced Institute of Science and Technology
所属学会:日本繊維機械学会 / 繊維学会 / 日本繊維製品消費科学会 / 応用物理学会 / 静電気学会 / 日本誘電体学会 / エネルギーハーベスティングコンソーシアム(正式オブザーバー)
出身県:福岡県
趣味:料理,筋トレ,アニメ鑑賞
研究者情報リンク:researchmap (学歴,職歴など),ORCiD
スマートテキスタイルは様々な分野が融合した研究分野ですので,電気電子工学,高分子科学,材料科学,繊維科学,機械工学,物理,化学など多様なバックグラウンドを持った学生を受け入れ可能です.研究室見学希望などより詳しく知りたい方は,気軽に石井にご連絡ください.
【出身大学】大阪市立大学、京都工芸繊維大学、京都府立大学、静岡大学、兵庫県立大学、福井工業高等専門学校、福井大学、大和大学
Smart Textile is an interdisciplinary research field. We are seeking talented Master’s or Doctoral students of diverse backgrounds and interests. If you need further information, please feel free to contact us.
大阪市,株式会社システム・ブイ,株式会社ディスコ,株式会社ニトリ,株式会社日立製作所, 株式会社村田製作所(3名),株式会社福井村田製作所, 京セラ株式会社(3名),京セラドキュメントソリューションズジャパン株式会社,シスメックス株式会社(2名), 新明和工業株式会社,住友ゴム工業株式会社,セイコーエプソン株式会社, ソニーセミコンダクタソリューションズ株式会社, ダイキン工業株式会社(3名),中部電力株式会社,帝人フロンティア株式会社, 日新電機株式会社(2名),富士電機株式会社(2名),日東電工株式会社, 前田工繊株式会社,三菱ケミカル株式会社
Osaka city, SystemV Inc.,DISCO Corp., NITORI Co. Ltd., Hitachi, Ltd., Murata Manufacturing Co., Ltd.(3), Fukui Murata Manufacturing. Co., Ltd., Kyocera Corp.(3), KYOCERA Document Solutions Japan Inc., SYSMEX Corp., ShinMaywa Industries, Ltd., Sumitomo Rubber Industries, Ltd.,Seiko Epson Corp., Sony Semiconductor Solutions Corp., Daikin Industries Ltd(3), Chubu Electric Power Co. Inc., TEIJIN FRONTIER CO., LTD., Nissin Electric Co., Ltd., Fuji Electric Co., Ltd.(2), Nitto Denko Corp., MAEDAKOSEN Co., Ltd., Mitsubishi Chemical Corp.
Fundamental study for improving characteristics of mask-type acoustic sensor (OTO Mask)
Development and application of pressure-sensing yarns powered by ambient electromagnetic fields
Output characteristics of mask-type acoustic sensor using electrospun fiber mat comprising discarded polystyrene and its application to emotion prediction
Development of wireless smart insoles for detecting wandering in dementia patients
Study on charging characteristics of electrospun submicrofiber mats comprising poly(lactic acid) with different crystallinity
Study on charging and electromechanical properties of electrospun fiber mats comprising discarded polystyrene
Research on active signal generating wet detection yarn
Study on mask-type acoustic sensor comprising electrospun poly(L-lactic acid) submicrofiber mat
Development of knitted glove capable of static and dynamic pressure sensing without external power supply
Study on charging characteristics of microfiber mats charged by electrospinning and corona charging methods
Charging properties of electrospun submicrofiber mats with different geometrical structures
Development of a mask-type acoustic sensor using electrospun poly(styrene) fiber mats
Fabrication of core/sheath electrospun microfiber mats and research on charging characteristics
Fabrication and property evaluation of electrospun poly(lactic acid) fiber sheet using a rotating collector
Development of knitted glove-type touch sensor detectable for human touching without external power supply
Study on fabrication and charging properties of mat of core-shell electrospun fibers
Study on self-power-generative pressure sensor using electrospun polystyrene fiber mat
Study on electrostatic properties of electrospun polystyrene microfiber mat
Development of spacer-fabric-type pressure sensor operating without power supply
Research on charging characteristics of electrospun poly(lactic acid) fiber mats
Research on charging and electromechanical characteristics of electrospun fiber mats composed of poly(lactic acid)
Development of pressure sensor using electrospun polystyrene fiber mat
Investigation in direct electromechanical and gas sensing properties of electrospun polystyrene fiber mats doped with pH-responsive dye
Development of capacitive pressure sensor with spacer fabric structure
Study on direct electromechanical properties of electrospun polystyrene fiber mats produced with different conditions
Electromechanical properties of electrospun polystyrene fiber membranes doped with gas responsive dye with different concentrations
Electromechanical properties of electrospun fiber membranes composed of bio-based polymers
Fabrication of dye-doped submicron fibers using water-soluble materials and investigation of their ammonia gas responsiveness
Research on function addition to electrospun polystyrene fibers exhibiting piezoelectric-like behaviors
Mechanism of electromechanical response from as-electrospun fiber mats composed of non-piezoelectric polymers
Direct electromechanical properties of as-electrospun polystyrene microfibers and their application to motion sensors