 Development of novel photochemical reactions in the strong photon-molecule coupling fields |
| [ Group Collaborator ] |
BACK Detection of molecular diffusion in the enhanced optical field due to localized surface plasmon resonance |
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Graduate School of Engineering Science, Osaka University |
| Syoji ITO, Assistant Professor |
[e-mail]sito  chem.es.osaka-u.ac.jp |
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[Speciality] Nano-photochemistry |
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[Keywords] Radiation pressure, Optical Nanomanipulation, Single molecule detection
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[Research Group Activities]
1. Direct observation of diffusive motions for individual molecules in heterogeneous field by single molecule fluorescence imaging
2. Mechanical interactions between molecules and photons quantitatively evaluated by highly sensitive fluorescence detection methods
3. Detection of molecular diffusion in small domains
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BACK Emission control of molecules by metallic nanostructures |
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Analysis Technology Center, R&D Management Headquarters, FUJIFILM Corporation |
| Yoshihiro SUGAWARA |
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[e-mail] yoshihiro_sugawara fujifilm.co.jp |
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[Speciality] Plasmonics, Solid State Physics |
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[Keywords] Plasmons, Emission Enhancement
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[Research Group Activities]
1. Emission lifetime measurement depending on nanostructres
2. Angular resolved spectroscopy for metallic periodic nanostructures
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BACK Efficient Single-Photon Sources by Strong Photon-Molecule Coupling Fields |
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Department of Macromolecular Science and Engineering,
Kyoto Institute of Technology |
| Sadahiro MASUO, Assistant Professor |
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[e-mail] masuo kit.ac.jp |
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[Speciality] Single molecule spectroscopy, microspectroscopy |
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[Keywords] single molecule, photon antibunching, single photon, nanocrystal, quatum dot
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[Research Group Activities]
1. Photon antibunching behavior of nm-sized molecular assemblies
2. Fluorescence dynamics of single charge transfer complex
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