Rchr
J-GLOBAL ID:201601018919966432
Update date: Sep. 19, 2024
Nosaka Yoshio
Nosaka Yoshio
Affiliation and department:
Homepage URL (1):
http://www.eonet.ne.jp/~ynos/
Research field (1):
Inorganic compounds/materials chemistry
Research keywords (3):
photofunctional materials
, physical chemistry
, photocatalysis
Research theme for competitive and other funds (23):
- 2009 - 2010 表面増強光触媒の反応初期過程の解明
- 2008 - 2008 表面増強光触媒の反応初期過程の解明
- 2002 - 2007 Design of high functional photocatalysts based on higher space and time analyses of the active reaction species
- 2005 - 2006 光触媒による痴呆症等の繊維化疾病の治療の開発
- 2004 - 2004 触媒学会参照触媒酸化チタンを利用する光触媒の標準化
- 1998 - 2000 光操作による微粒子間相互作用の制御と反応
- 1999 - 1999 光電極反応と光機能界面
- 1996 - 1996 溶液中での半導体クラスター形成過程の化学発光測定による研究
- 1996 - 1996 不安定化学種の観測による半導体粉末光触媒の反応機構の研究
- 1995 - 1995 常磁性化学種の観測による半導体粉末光触媒の反応機構の研究
- 1993 - 1995 Free Radicals in the Condensed Phase
- 1994 - 1994 化学発光プローブによる半導体粉末光触媒の反応機構の研究
- 1991 - 1991 量子化半導体超微粒子の化学的粒径制御に関する研究
- 1991 - 1991 励起酸素または窒素からのエネルギ-移動反応およびそのケミカルレ-ザ-への応用
- 1991 - 1991 トンネル構造および光誘起電界機能をもつ化合物半導体の光触媒作用
- 1990 - 1990 電子励起一重項酸素の緩和と反応およびそれを利用したケミカルレ-ザ-に関する研究
- 1990 - 1990 インタ-カレ-ト型層状半導体の光触媒機能
- 1989 - 1989 生体腎をモデルとした蛋白分離膜の合成と評価
- 1989 - 1989 光エネルギ-の化学的変換における層状半導体の機能化
- 1989 - 1989 溶液中での半導体超微粒子生成機構と固液界面反応の研究
- 1988 - 1988 糸球体基底膜をモデルとした蛋白分離膜の合成と評価
- 1988 - 1988 層状複合触媒による光エネルギーの化学的変換
- 1987 - 1987 生体機能をモデルとした蛋白分離膜の合成と評価
Show all
Papers (229):
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Yoshio Nosaka. Molecular Mechanisms of Oxygen Evolution Reactions for Artificial Photosynthesis. Oxygen (Open Access). 2023. 3. 4. 407-451
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Yoshio Nosaka. Water Photo-Oxidation over TiO2-History and Reaction Mechanism. Catalysts (Open Access). 2022. 12. 12. 1557-1557
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Takashi Kukisawa, Yutaka Kuwabara, Atsuko Y. Nosaka, Yoshio Nosaka. Applications of some EPR methods to the investigation of the radical species produced by the reactions of hydroxyl radicals with PEFC-related fluorinated organic acids. Physical Chemistry Chemical Physics. 2022. 24. 38. 23472-23480
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Yutaka Kuwabara, Masahiro Kitazawa, Atsuko Y. Nosaka, Yoshio Nosaka. Spin Dynamics of the Radicals Produced from Methane Sulfonic Acid and Acetic Acid by Hydroxyl Radicals in Aqueous Solution Studied by Means of Time-Resolved Electron Spin Resonance Spectroscopy. The Journal of Physical Chemistry A. 2021. 125. 9. 1816-1826
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Yoshio Nosaka. Intrinsic nature of photocatalysis by comparing with electrochemistry. Physical Chemistry Chemical Physics. 2020. 22. 7146-7154
more...
MISC (78):
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野坂芳雄. 酸素発生の反応機構2-TiO2,BiVO4,その他の金属酸化物触媒. 会報光触媒. 2024. 75. 62-83
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野坂芳雄. 酸素発生の反応機構1-天然光合成系から電気分解まで. 会報光触媒. 2024. 73. 52-69
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野坂芳雄, 野坂篤子. 光触媒の活性評価,(光触媒の基礎 VI ). 会報光触媒. 2018. 56. 18-41
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野坂芳雄, 野坂篤子. 光触媒の反応機構,(光触媒の基礎 V ). 会報光触媒. 2018. 55. 34-59
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野坂芳雄, 野坂篤子. 光電気化学と光触媒,(光触媒の基礎 IV ). 会報光触媒. 2017. 54. 28-57
more...
Patents (10):
Books (11):
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Handbook of Self-Cleaning Surfaces and Materials From Fundamentals to Applications
Wiley-VCH, Weinheim 2023 ISBN:9783527330966
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Fundamentals of Photocatalysis
NOVA Scientific Publ. 2021 ISBN:9781685074173
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Comprehensive nanoscience and nanotechnology、Vol 5 Ed.Andrews, David L.;Lipson, Robert H.;Nann, ThoEd.
Elsevier,Academic Press 2019 ISBN:9780128122952
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Fundamentals of Photocatalysis (in Japanese)
Repository of Nagaoka University of Technology 2018
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Photocatalysis: Fundamentals, Materials and Potential
Mdpi AG 2016 ISBN:9783038421832
more...
Lectures and oral presentations (33):
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Spin Dynamics in the Reactions of OH radical with Organic Acids Studies by Means of Time-Resolved Electron Spin Resonance Spectroscopy
(2021)
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Oxidation mechanism of water over the surface of photocatalysts
(2021)
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半導体光触媒研究に電気化学の手法はどこまで使えるか?
(光触媒研究と開発技術の最新動向と将来展望 2020)
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Photocatalysis versus Electrochemistry
(Photocatalysis 3 2019)
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Langmuir-Hinshelwood and Light-Intensity Dependence Analyses of Photocatalytic Oxidation Rates by Two-Dimensional-Ladder Kinetic Simulation
(2019)
more...
Education (2):
- 1972 - 1977 Kyoto University Science Graduate course of Chemistry
- 1968 - 1972 Kyoto Institute of Technology Textile Fiber Textile Chemistry
Professional career (1):
- Ph. D, Science (Kyoto University)
Work history (4):
- 1980 - 2015 Nagaoka University of Technology Department of Materials Science and Technology
- 1985/08 - 1986/08 University of Texas at Austin Department of Chemistry Visiting Researcher
- 1978 - 1980 RIKEN (Wako) RadiationChemistry Posdoc Researcher
- 1977 - 1978 JSPS Kyoto University Researcher
Awards (1):
- 2020/04 - 日本政府(内閣総理大臣) 紺綬褒章
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