A Study on Heterogeneous Electron Charge-Transfer Processes at Redox-Active Chitosan Modified Carbon Nanotubes Film-Coated Electrodes Using AC Impedance Technique (Electrochemical Impedance Spectroscopy) -An Enzyme Immunosensor-

カテゴリ: 研究会(論文単位)

論文No: DEI18010

グループ名: 【A】基礎・材料・共通部門 誘電・絶縁材料研究会

発行日: 2018/01/22

タイトル(英語): A Study on Heterogeneous Electron Charge-Transfer Processes at Redox-Active Chitosan Modified Carbon Nanotubes Film-Coated Electrodes Using AC Impedance Technique (Electrochemical Impedance Spectroscopy) -An Enzyme Immunosensor-

著者名: Ali Md. Azahar(Indian Institute of Technology Hyderabad),Singh Nawab(CSIR-National Physical Laboratory),Srivasta Saurabh(CSIR-National Physical Laboratory),Agrawal Ved V (CSIR-National Physical Laboratory),John Renu(Indian Institute of Technology Hyderabad),Malhotra Bansi Dhar.(Delhi Technological University),Onoda Mitsuyoshi(University of Hyogo)

著者名(英語): Md. Azahar Ali(Indian Institute of Technology Hyderabad),Nawab Singh(CSIR-National Physical Laboratory),Saurabh Srivasta(CSIR-National Physical Laboratory),Ved V Agrawal(CSIR-National Physical Laboratory),Renu John(Indian Institute of Technology Hyderabad),Bansi Dhar .Malhotra(Delhi Technological University),Mitsuyoshi Onoda(University of Hyogo)

キーワード: Electrochemical impedance spectroscopy|Antigen-Antibody interactio|CNT-CH nanocomposite film|Immunosensor|Electrochemical impedance spectroscopy|Antigen-Antibody interactio|CNT-CH nanocomposite film|Immunosensor

要約(日本語): The commencement of 21st century have witnessed the advanced visual communication- oriented society which is becoming more and more complicated leading to the emergence of so-called "ubiquitous" network. In order to meet the demands of such a visual communication-oriented society, it is essential to realize the functional diversity and the functional integration based on the hyperfine processing. However, the techno-scientific innovations in the semiconductor electronics seem to exhibit a downfall owing to the reachable physical limits. "Iontronics" are dealing with the devices and applications using functions of ions etc. Bioelectronics has been emerged by combining the biology and electronics dealing with the study of living body functions electronically.

要約(英語): The commencement of 21st century have witnessed the advanced visual communication- oriented society which is becoming more and more complicated leading to the emergence of so-called "ubiquitous" network. In order to meet the demands of such a visual communication-oriented society, it is essential to realize the functional diversity and the functional integration based on the hyperfine processing. However, the techno-scientific innovations in the semiconductor electronics seem to exhibit a downfall owing to the reachable physical limits. "Iontronics" are dealing with the devices and applications using functions of ions etc. Bioelectronics has been emerged by combining the biology and electronics dealing with the study of living body functions electronically.

原稿種別: 英語

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