YUASA Makoto | Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo
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概要
- Yuasa Makotoの詳細を見る
- 同名の論文著者
- Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyoの論文著者
関連著者
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YUASA Makoto
Department of Industrial Chemistry, Faculty of Science and Technology, Science University of Tokyo
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Yuasa Makoto
Department Of Polymer Chemistry Waseda University
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Oyaizu Kenichi
Institute of Colloid and Interface Science, Tokyo University of Science
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YUASA Makoto
Department of Pure and Applied Chemistry, Faculty of Science and Technology, Tokyo University of Sci
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Yamaguchi Aritomo
Department Of Chemistry Graduate School Of Science The University Of Tokyo
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湯浅 真
東京理科大学理工学部
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湯浅 真
東京理科大学理工学部工業化学科
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Nishide Hiroyuki
Department Of Applied Chemistry Waseda University
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Yamaguchi A
Department Of Pure And Applied Chemistry Faculty Of Science And Technology Tokyo University Of Scien
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Tsuchida Eishun
Department Of Applied Chemistry Waseda University
著作論文
- Synthesis of Reconstituted Hemoglobins Containing Metalloporphyrin Derivatives and SOD Activity
- Synthesis of Cationic Manganese Porphyrin Bearing Alkylsulfonio Groups and Evaluation of Their Antioxidant Activities
- Antioxidant and Anticancer Properties of Metalloporphyrins Embedded in Liposomes
- Fabrication of Sensor for Reactive Oxygen Species Using Gold Electrodes Modified with Electropolymerized Porphyrins and Application for Detection of Stress of Plants
- Novel Approach for the Preparation of Metal Containing Mesoporous Silica Using Solubilization of Fatty Acid Salt
- Oxygen Reduction Characteristics on Pyrolytic Graphite Electrodes Modified with Electro-polymerized Salen Compounds
- Synthesis of Polymeric Reconstituted Hemoglobins as Superoxide Dismutase Mimics Designed for Long-term Circulation Maintenance
- Surface Modification of Reconstituted Hemoglobins Containing SOD-Active Metalloporphyrins
- REVERSE BOHR EFFECT BY LIPOSOME-EMBEDDED LIPID-HEME
- KINETIC PROPERTY OF OXYGEN- AND CARBON MONOXIDEBINDING BY THE LIPOSOME-EMBEDDED HEME UNDER PHYSIOLOGICAL CONDITIONS (A RED BLOOD CELL MODEL)