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Geddes Chris D. (ed.). Metal Enhanced Fluorescence
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- Добавлен пользователем leonid1976
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New Jersey: Wiley, 2010 — 655 p. — ISBN: 978-0-470-22838-8.Metal-Enhanced Fluorescence: Progress Towards a Unified Plasmon-Fluorophore Description.
Spectral Profile Modifications In Metal-Enhanced Fluorescence.
The Role Of Plasmonic Engineering In Potential Surface-Enhanced Fluorescence.
Importance of Spectral Overlap: Fluorescence Enhancement by Single Metal Nanoparticles.
Near-IR Metal-Enhanced Fluorescence And Controlled Colloidal Aggregation.
Optimisation Of Plasmonic Enhancement Of Fluorescence For Optical Biosensor Applications.
Microwave-Accelerated Metal-Enhanced Fluorescence.
Localized Surface Plasmon Coupled Fluorescence Fiber Optic Based Biosensing.
Surface Plasmon Enhanced Photochemistry.
Metal-Enhanced Generation of Oxygen Rich Species.
Synthesis Of Anisotropie Noble Metal Nanoparticles.
Enhanced Fluorescence Detection Enabled By Zinc Oxide Nanomaterials.
ZnO Platforms For Enhanced Directional Fluorescence Applications.
E-Beam Lithography And Spontaneous Galvanic Displacement Reactions For Spatially Controlled MEF Applications.
Metal-Enhanced Chemiluminescence.
Enhanced Fluorescence From Gratings.
Enhancing Fluorescence with Sub-Wavelength Metallic Apertures.
Enhanced Multi-Photon Excitation of Tryptophan-Silver Colloid.
Plasmon-enhanced radiative rates and applications to organic electronics.
Fluorescent Quenching Gold Nanoparticles: Potential Biomédical Applications.
Spectral Profile Modifications In Metal-Enhanced Fluorescence.
The Role Of Plasmonic Engineering In Potential Surface-Enhanced Fluorescence.
Importance of Spectral Overlap: Fluorescence Enhancement by Single Metal Nanoparticles.
Near-IR Metal-Enhanced Fluorescence And Controlled Colloidal Aggregation.
Optimisation Of Plasmonic Enhancement Of Fluorescence For Optical Biosensor Applications.
Microwave-Accelerated Metal-Enhanced Fluorescence.
Localized Surface Plasmon Coupled Fluorescence Fiber Optic Based Biosensing.
Surface Plasmon Enhanced Photochemistry.
Metal-Enhanced Generation of Oxygen Rich Species.
Synthesis Of Anisotropie Noble Metal Nanoparticles.
Enhanced Fluorescence Detection Enabled By Zinc Oxide Nanomaterials.
ZnO Platforms For Enhanced Directional Fluorescence Applications.
E-Beam Lithography And Spontaneous Galvanic Displacement Reactions For Spatially Controlled MEF Applications.
Metal-Enhanced Chemiluminescence.
Enhanced Fluorescence From Gratings.
Enhancing Fluorescence with Sub-Wavelength Metallic Apertures.
Enhanced Multi-Photon Excitation of Tryptophan-Silver Colloid.
Plasmon-enhanced radiative rates and applications to organic electronics.
Fluorescent Quenching Gold Nanoparticles: Potential Biomédical Applications.
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