KATANO Hajime | Department of Bioscience, Fukui Prefectural University
スポンサーリンク
概要
関連著者
-
KATANO Hajime
Department of Bioscience, Fukui Prefectural University
-
Katano Hajime
Department Of Bioscicnce Fukui Prcfectural University
-
Katano H
Department Of Bioscience Fukui Prefectural University
-
Tatsumi Hirosuke
Department Of Agricultural Chemistry Faculty Of Agriculture Kyoto University
-
TATSUMI Hirosuke
Department of Agricultural Chemistry, Faculty of Agriculture, Kyoto University
-
TATSUMI Hirosuke
International Young Researchers Empowerment Center, Shinshu University
-
Ikeda Tokuji
Department Of Bioscience Fukui Prefectural University
-
HIBI Takao
Department of Bioscience, Fukui Prefectural University
-
TSUKATANI Toshihide
Research and Development Division, Nicca Chemical, Co. Ltd.
-
Ikeda Tokuji
Department Of Agricultural Chemistry Faculty Of Agriculture Kyoto University
-
Hibi Takao
Department Of Bioscience Fukui Prefectural University
-
Hibi Takao
Department Of Bioscience Faculty Of Biotechnology Fukui Prefectural University
-
Tsukatani Toshihide
Research And Development Division Nicca Chemical Co. Ltd.
-
Hibi Takao
Faculty Of Biotechnology Fukui Prefectural University
-
Tatsumi Hirosuke
International Young Researchers Empowerment Center Shinshu University
-
Senda Mitsugi
Department Of Agricultural Chemistry College Of Agriculture Kyoto University
-
Senda Mitsugi
Department of Agricultural Chemistry, Faculty of Agriculture, Kyoto University
-
Murayama Yuji
Department of Molecular Biology, Keio University School of Medicine
-
UEMATSU Kohei
Department of Bioscience, Fukui Prefectural University
-
Uematsu Kohei
Department Of Bioscience Fukui Prefectural University
-
Murayama Yuji
Department Of Bioscience Fukui Prefectural University
-
KAMEOKA Ikuo
Research and Development Division, Nicca Chemical, Co. Ltd.
-
Senda Mitsugi
Department Of Bioscience Fukui Prefectural University
-
Tatsumi Hirosuke
Department Of Bioscience Fukui Prefectural University
-
Katano Hajime
Department Of Bioscience Faculty Of Biotechnology Fukui Prefectural University
-
TSUKATANI Toshihide
General Research Center, Nicca Chemical, Co. Ltd.
-
Kajino Tsutomu
Toyota Central Research & Development Labs
-
Kajino Tsutomu
Toyota Central R & D Labs Inc.
-
HIRAYAMA Naoki
Division of Material Sciences, Graduate School of Natural Science and Technology, Kanazawa Universit
-
Kubota Yuko
Department Of Bioscience Fukui Prefectural University
-
Kimoto Hisashi
Department Of Bioscience Fukui Prefectural University
-
Kimoto Hisashi
Department Of Applied Physics And Chemistry Fukui Institute Of Technology
-
MA Haku
Department of Bioscience, Fukui Prefectural University
-
WANIBUCHI Mizue
Department of Bioscience, Fukui Prefectural University
-
Senda M
Fukui Prefectural Univ. Fukui
-
Senda M
Department Of Bioscience Fukui Prefectural University
-
Ma Haku
Department Of Bioscience Fukui Prefectural University
-
Kameoka Ikuo
General Research Center Nicca Chemical Co. Ltd.
-
Katano Hajime
Department Of Bioscience Fukui Prefectural University
-
Hirayama Naoki
Division Of Material Chemistry Graduate School Of Natural Science And Technology Kanazawa University
-
Hirayama Naoki
Division Of Material Science Graduate School Of Natural Science And Technology Kanazawa University
-
Makino Masahiro
General Research Center Nicca Chemical Co. Ltd.
-
Wanibuchi Mizue
Department Of Bioscience Fukui Prefectural University
-
DEGUCHI Mika
Division of Material Chemistry, Graduate School of Natural Science and Technology, Kanazawa Universi
-
Deguchi Mika
Division Of Material Chemistry Graduate School Of Natural Science And Technology Kanazawa University
-
Senda Mitsugi
Department Of Bioscience Faculty Of Biotechnology Fukui Prefectural University
著作論文
- Decomposition of Free Chlorine with Tertiary Ammonium
- Measurements of Reversible and Irreversible Inactivation Processes of a Redox Enzyme, Bilirubin Oxidase, by Electrochemical Methods Based on Bioelectrocatalysis
- Application of Poly[oxyethylene(dimethylimino)propyl-(dimethylimino)ethylene] as Enzyme Stabilizer for Bilirubin Oxidase Immobilized Electrode
- Activity Measurement of Chitosanase by an Amperometric Biosensor
- Application of Polyammonium Cations to Enzyme-immobilized Electrode : Application as Enzyme Stabilizer for Bilirubin Oxidase
- Application of Polyammonium Cations to Enzyme-immobilized Electrode : Voltammetric Behavior of Polycation-hexacyanoferrate Anion Complexes and Applicability as Electron-Transfer Mediator
- A Bioelectrocatalysis Method for the Kinetic Measurement of Thermal Inactivation of a Redox Enzyme, Bilirubin Oxidase
- Kinetic Analysis of Glucoamylase-Catalyzed Hydrolysis of Starch Granules from Various Botanical Sources
- Voltammetric Behavior of the Transfer of Mono- and Polyammonium Ions across a Phospholipid Monolayer at the Nitrobenzene/Water Interface
- Determination of Consecutive Formation Constants of Complex Ions from Ion-Transfer Voltammetric Data
- Ion-transfer Voltammetry of Local Anesthetics at an Organic Solvent/Water Interface and Pharmacological Activity vs. Ion Partition Coefficient Relationship
- Voltammetric Study of Interfacial Electron Transfer between Bis(cyclopentadienyl)iron in Organic Solvents and Hexacyanoferrate in Water
- Halogen-Free Water-Immiscible Ionic Liquids Based on Tetraoctylammonium Cation and Dodecylsulfate and Dodecylbenzenesulfonate Anions, and Their Application as Chelate Extraction Solvent
- Electrochemical Study of the Assisted Transfer of Silver Ion by 1,5-Cyclooctadiene at the 1,6-Dichlorohexane | Water Interface
- Voltammetric Study of the Transfer of Polyammonium Ions at Nitrobenzene/Water Interface
- Voltammetric Study of the Transfer of Fluoride Ion at the Nitrobenzene | Water Interface Assisted by Tetraphenylantimony
- Voltammetry at 1, 6-Dichlorohexane 〓 Water Interface
- Stripping Voltammetry of Mercury(II)and Lead(II)Ions at Liquid/Liquid Interface
- Ion-Transfer Voltammetry at a Polarized Room-Temperature Molten Salt | Water Interface
- Kinetic Analysis of Enzymatic Hydrolysis of Raw Starch by Glucoamylase Using an Amperometric Glucose Sensor
- Voltammetric study on the transfer of transition metal ions across the polarizable Oil/Water interface facilitated by polythiaethers. I. HTCO(NB)Pb^(W)system.