Mizutani Fumio | Graduate School Of Material Sci. Univ. Of Hyogo
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概要
関連著者
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Mizutani Fumio
Graduate School Of Material Sci. Univ. Of Hyogo
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Yasukawa Tomoyuki
Graduate School Of Engineering Tohoku University
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Yasukawa Tomoyuki
Graduate School Of Material Science University Of Hyogo
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MIZUTANI Fumio
Graduate School of Material Science, University of Hyogo
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Hisamoto Hideaki
Department Of Applied Chemistry Graduate School Of Engineering Osaka Prefecture University
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Maekawa Eiji
Graduate School Of Material Science University Of Hyogo
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Hisamoto Hideaki
Graduate School Of Engineering Osaka Prefecture University
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Mie Yasuhiro
Hokkaido Center National Institute Of Advanced Industrial Science And Technology (aist)
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Niwa Osamu
Tsukuba Center National Institute Of Advanced Industrial Science And Technology (aist)
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Mizutani Fumio
Graduate School Of Material Science University Of Hyogo
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INADUMI Shingo
Graduate School of Material Science, University of Hyogo
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Shiku Hitoshi
Graduate School Of Environmental Studies Tohoku University
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Hisamoto Hideaki
Graduate School Of Material Science University Of Hyogo
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Inadumi Shingo
Graduate School Of Material Science University Of Hyogo
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MAEKAWA Eiji
Graduate School of Material Science, University of Hyogo
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SEKIZAWA Ryuichi
Metaboscreen Co. Ltd.
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Henares Terence
Department Of Applied Chemistry Graduate School Of Engineering Osaka Prefecture University
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Matsue Tomokazu
Graduate School Of Environmental Studies Tohoku University
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Yasukawa Tomoyuki
Graduate School of Material Science, University of Hyogo
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安川 智之
Graduate School Of Material Science University Of Hyogo
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Niwa Osamu
National Institute Of Advanced Industrial Science And Technology (aist)
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Kanda Kazuhiro
Laboratory Of Advanced Science And Technology For Industry University Of Hyogo
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MIZUTANI Fumio
Hokkaido Center, National Institute of Advanced Industrial Science and Technology (AIST)
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OHTA Eiji
Graduate School of Material Science, University of Hyogo
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MATSUE Tomokazu
Graduate School of Environmental Studies, Tohoku University
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Gobi K.
National Institute Of Bioscience And Human-technology
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MATSUI Shinji
Laboratory of Advanced Science and Technology for Industry, Himeji Institute of Technology
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Mizutani Fumio
Hokkaido Center National Institute Of Advanced Industrial Science And Technology (aist)
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Mizutani Fumio
National Institute Of Advanced Industrial Science And Technology
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Goto Takuya
Graduate School Of Frontier Sciences The University Of Tokyo
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Matsue T
Graduate School Of Environmental Studies Tohoku University
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Matsue Tomokazu
Tohoku Univ.
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HARADA Rie
Graduate School of Material Science, University of Hyogo
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SHINAGAWA Shingo
TransGenic, Inc.
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NOSE Hiroshi
TransGenic, Inc.
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Yao Toshio
Department Of Applied Chemistry Graduate School Of Engineering Osaka Prefecture University
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Yao Toshio
Department Of Applied Chemistry College Of Engineering University Of Osaka Prefecture
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Harada Rie
Graduate School Of Material Science University Of Hyogo
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Shiku Hitoshi
Tohoku Univ.
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Matsue T
Tohoku Univ.
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Nose Hiroshi
Transgenic Inc.
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Matsui Shinji
Laboratory Of Advanced Science And Technology For Industry University Of Hyogo
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Niwa Osamu
Crest Japan Science And Technology Agency
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Goto Takuya
Graduate School Of Material Science University Of Hyogo
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KITANO Nao
Graduate School of Material Science, University of Hyogo
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Kitano Nao
Graduate School Of Material Science University Of Hyogo
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Ohta Eiji
Graduate School Of Material Science University Of Hyogo
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Matsui Shinji
Laboratory Of Advanced Science And Technology For Industry (lasti) Graduate School Of Science Univer
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HENARES Terence
Department of Applied Chemistry, Graduate School of Engineering, Osaka Prefecture University
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OKUBO Fumito
Department of Applied Chemistry, Graduate School of Engineering, Osaka Prefecture University
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HENARES Terence
Graduate School of Material Science, University of Hyogo
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Shinagawa Shingo
Transgenic Inc.
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Okubo Fumito
Department Of Applied Chemistry Graduate School Of Engineering Osaka Prefecture University
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Hirano Yu
National Institute Of Advanced Industrial Science And Technology (aist)
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Matsui Shinji
Laboratory Of Advanced Science And Technolgy For Industory Himeji Institute Of Technology
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MASE Yoshiaki
Graduate School of Environmental Studies, Tohoku University
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OYAMATSU Daisuke
Graduate School of Environmental Studies, Tohoku University
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Mase Yoshiaki
Graduate School Of Environmental Studies Tohoku University
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Henares Terence
Graduate School Of Engineering Osaka Prefecture University
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Oyamatsu Daisuke
Graduate School Of Environmental Studies Tohoku University
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Yoshimura Yuki
Graduate School Of Material Science University Of Hyogo
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前川 英治
Graduate School of Material Science, University of Hyogo
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北野 奈央
Graduate School of Material Science, University of Hyogo
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Kanda Kazuhiro
Laboratory of Advanced Science and Technology for Industry (LASTI), University of Hyogo, Kamigori, Hyogo 678-1205, Japan
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KATO Dai
Tsukuba Center, National Institute of Advanced Industrial Science and Technology (AIST)
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Mie Yasuhiro
Hokkaido Center, National Institute of Advanced Industrial Science and Technology (AIST)
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SATO Yukari
Tsukuba Center, National Institute of Advanced Industrial Science and Technology (AIST)
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KURITA Ryoji
Tsukuba Center, National Institute of Advanced Industrial Science and Technology (AIST)
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HIRANO Yu
Research Institute of Genome-based Biofactory, National Institute of Advanced Industrial, Science and Technology (AIST)
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SAWAYASHIKI Yoshihiro
Graduate School of Environmental Studies, Tohoku University
著作論文
- Determination of Hydrogen Peroxide Based on the Charge Accumulation and Electrochemical Reduction at an Osmium Complex/Peroxidase-coated Electrode
- Highly Sensitive Detection of N^1,N^-Diacetylspermine Based on Electrochemical Charge Accumulation
- Inhibition of Electrochemical Fouling against Biomolecules on a Diamond-Like Carbon Electrode
- ポリジメチルシロキサン膜への酵素の導入とグルコースセンサへの応用
- Immobilization of Glucose Oxidase on a Poly(dimethylsiloxane) Layer by Using Poly(L-lysine) as a Polymer Backbone
- Capillary-assembled Microchip for the Electrochemical Determination of Glucose
- Enzyme-Release Capillary as a Facile Enzymatic Biosensing Part for a Capillary-Assembled Microchip
- "Drop-and-Sip" Fluid Handling Technique for the Reagent-Release Capillary (RRC)-based Capillary-Assembled Microchip (CAs-CHIP) : Sample Delivery Optimization and Reagent Release Behavior in RRC
- Amperometric Detection of Superoxide Dismutase at Cytochrome c-Immobilized Electrodes: Xanthine Oxidase and Ascorbate Oxidase Incorporated Biopolymer Membrane for in-vivo Analysis
- Improvement of Detectable Sensitivity for Enzyme Reaction by Scanning Electrochemical Microscopy with Distance Control System for Immunosensing
- Preparation of Immunosensors Using a Microfluidic Device with an Interdigitated Array Electrode Modified with Antibodies
- Microsensors with Detection Range of Glucose to Higher Concentrations by Regulating Oxygen Concentration with the Electrolysis of Water
- Highly-sensitive Biosensors with Chemically-amplified Responses