Researchers
- KOMORI Kikuo
- Associate Professor
Faculty | Department of Biotechnology and Chemistry / Graduate School of System Engineering |
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Researchmap | https://researchmap.jp/kkomori |
Research Activities
Research Areas
- Nanotechnology/Materials, Functional solid-state chemistry
- Nanotechnology/Materials, Basic physical chemistry
- Life sciences, Biomaterials
- Life sciences, Biomedical engineering
- Manufacturing technology (mechanical, electrical/electronic, chemical engineering), Applied biofunctional and bioprocess engineering
Published Papers
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Autonomous and heteronomous control of selectivity to pyrocatechol derivatives for near-infrared light-responsive cup-stacked carbon nanofiber/FTO electrodes modified with thermo-responsive polymers
Minghao Liu; Yuta Tani; Kohei Shiraishi; Kikuo Komori
Sensors and Actuators B: Chemical 418 , 136187-, Nov. 2024 , Refereed -
Cooperative Control of Bioelectrocatalytic Activity for Thermo- and Photo-Switchable Cup-Stacked Carbon Nanofiber Electrodes Modified with Phase Transition Polymer and Heme Peptide
Yuta Tani; Hiro Tanigawa; Minghao Liu; Kikuo Komori
Langmuir 40 , 20249-20254, 12, Sep. 2024 , Refereed -
Amino-functionalized Cup-stacked Carbon Nanofibers as Electrode Materials for Suppressing Protein Fouling
Yuka Ashitani; Kazutake Takada; Kikuo Komori
Sensors and Materials 35 (9) , 3201-3209, 28, Sep. 2023 , Refereed
Books etc
- In Vivo Inhalation Toxicity Screening Methods for Manufactured Nanomaterials , K. Komori; K. Iwasawa; R. Ogasawara; A. Suwabe; Y. Sakai , In Vitro Alveolar Epithelial Models toward the Prediction of Cytotoxicity Tests and Translocation Studies of Nanoparticles , In Vitro Alveolar Epithelial Models toward the Prediction of Cytotoxicity Tests and Translocation Studies of Nanoparticles , Springer , 2019
- 臓器チップの技術と開発動向 , 小森喜久夫; 酒井康行 , (第III編・第3章)In vitro培養肺胞モデルとチップ化検討 , (第III編・第3章)In vitro培養肺胞モデルとチップ化検討 , シーエムシー出版 , 2018
- 細胞培養・品質管理の基礎知識と細胞培養機材の利用・開発・評価の留意点 , 篠原満利恵; 木村圭一; 肖 文晋; ポーデル・サパナ; 小森喜久夫; 酒井康行 , 第10章 細胞培養機材と細胞の関係〜第4節 ガス透過性機材と細胞の関係 , 第10章 細胞培養機材と細胞の関係〜第4節 ガス透過性機材と細胞の関係 , (株)情報機構 , 2016
Conference Activities & Talks
- Thin-Film Transistor Platform for Electrophysiological and Electrochemical Characterization of Biological Cells , A-C. Eiler; P-M. Faure; J. Sugita; S. Ihida; D. Zhu; Y. Sakai; K. Fujiu; K. Komori; H. Toshiyoshi; A. Tixier-Mita , 2020 IEEE International Electron Devices Meeting (IEDM) , 12, Dec. 2020
- Position-selective cell sampling in a microfliidic cell culture device using localized laminar flows , Satomi Matsumoto; Eric Leclerc; Toshiro Maekawa; Haruyuki Kinoshita; Marie Shinohara; Kikuo Komori; Yasuyuki Sakai; Teruo Fujii , 21st International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2017 , 2020
- Investigation of drug metabolism with liver zonation model using oxygen gradient in a microfluidic device , Satomi Matsumoto; Eric Leclec; Astia Rizki-Safitri; Mathieu Danoy; Toshiro Maekawa; Haruyuki Kinoshita; Marie Shinohara; Kikuo Komori; Yasuyuki Sakai; Teruo Fujii , 23rd International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2019 , 2019
MISC
- バイモーダル「センサチップレット」プラットフォームによるアルブミン・pHマルチ計測—Measurement of Albumin and pH by bimodal chiplets , 島村 龍伍; 安永 竣; 三角 啓; Anne-Claire Eiler; 肥後 昭男; Gilgueng Hwang; 水島 彩子; Dongchen Zhu; 小森 喜久夫; 酒井 康行; 年吉 洋; ティクシエ三田 アニエス; 三田 吉郎 , 「センサ・マイクロマシンと応用システム」シンポジウム論文集 電気学会センサ・マイクロマシン部門 [編] , 40 , 5p , Nov. 2023
- カーボンナノ材料を利用した電気化学バイオデバイス , 小森喜久夫 , 材料の科学と工学 , 59 , 78 , 81 , 2022
- Toward the Development of In Vitro Bioassay Systems Integrated with Electrochemical Biosensors , Kikuo Komori , 2018 International Symposium on Micro-NanoMechatronics and Human Science (MHS) , Dec. 2018
Research Grants & Projects
- JKA, デュアル刺激応答性電極による合律制御型電気化学センサへの応用
- Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research, Investigation of high spatiotemporal resolution multi-biosensing method using TFT electrode array , The University of Tokyo
- Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research, An integrated body-on-a-chip mimicking physiological parameters , Tokai University