Mataga Noboru | Department Of Chemistry Faculty Of Engineering Science Osaka University
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概要
関連著者
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Mataga Noboru
Department Of Chemistry Faculty Of Engineering Science Osaka University
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Okada Tadashi
Department Of Chemistry Graduate School Of Engineering Science And Research Center For Materials Sci
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MATAGA Noboru
Department of Chemistry,Faculty of Engineering Science,Osaka University
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Miyasaka Hiroshi
Department Of Chemistry Faculty Of Engineering Science Osaka University
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MATAGA Noboru
Institute for Laser Technology
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Morita Kazuhiro
Department Of Chemistry Faculty Of Engineering Science Osaka University
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Morita Kazuhiro
Department of Chemical Engineering, Faculty of Engineering, Doshisha University
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ISHIGURO Eiji
Department of Applied Physics,Faculty of Engineering,Osaka City University
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Sakata Yoshiteru
The Institute Of Science And Industrial Research Osaka University
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Kamada Kenji
Department Of Optical Materials Osaka National Research Institute
著作論文
- Theoretical Study of Dielectric Saturation in Molecular Solutions by the Monte Carlo Simulation
- Sequential Electron Transfer Leading to Long-Lived Charge Separated State in a Porphyrin-Oxochlorin-Pyromellitdimide Triad
- Energy Transfer by Resonance between Organic Molecules in Solution
- Energy Transfer by Resonance between Organic Molecules in Solvents
- Picosecond Laser Photolysis Studies on Chain-Length, Solvent and Temperature Dependences of the Intramolecular Photoredduction process of Benzophenone by Diphenylamine
- Electronic absorption and fluorescence spectra of [2.2]anthracenophanes.
- Photoionization of s-Tetracyanobenzene-Toluene Complex in Its Lowest Excited Singlet State
- Picosecond laser spectroscopy of intramolecular heteroexcimer systems. Time-resolved fluorescence studies of p-(CH3)2NC6H4-(CH2)n-(9-anthryl),p-(CH3)2NC6H4-(CH2)n-(1-pyrenyl) systems and 9,9'-bianthryl.
- Hydrogen atom transfer in the quenching of pyrene fluorescence by amines.
- Deactivation of excited 2-naphthylamine due to hydrogen bonding interaction with pyridines. Fluorescence and picosecond laser photolysis studies.