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简介
本书将从原理和应用两个方面详细介绍多种环境下的等离激元增强荧光。基于局域表面等离激元共振的等离激元能提供荧光所需要电子和能量,在表面等离激元增强荧光,针尖增强荧光光谱,表面等离激元增强上转换荧光材料,表面等离激元增强的共振荧光能转移的过程中发现等离激元能选择性增强分子或材料体系的荧光。
目录
CONTENTS
PlasmonEnhanced Fluorescence: Principles and Applications
CONTENTS
Chapter ⅠIntroduction
References
Chapter ⅡPhysical Mechanism of PlasmonEnhanced Fluorescence
2.1Introduction
2.2The principle of PEF
References
Chapter ⅢPlasmonEnhanced Fluorescence
3.1Introduction
3.2PEF from periodical metallic plasmonic nanostructures
3.2.1PEF from nanograting substrate
3.2.2PEF from nanohole arrays substrate
3.2.3PEF from nanoparticle arrays substrate
3.2.4PEF from nanorod arrays substrate
3.3PEF from nonperiodical metallic plasmonic nanostructure
3.3.1PEF from metallic silver island substrate
3.3.2PEF from metallic fractallike substrate
3.3.3PEF from deposited metallic nanoparticle substrate
3.4The wavelength and spacer effect towards the fluorescence
enhancement
3.5Conclusion and prospect
References
Chapter ⅣTipEnhanced Fluorescence
4.1Introduction
4.2Experimental works on tipenhanced fluorescence
4.3Theoretical calculations on tipenhanced Raman
spectroscopy
4.4Results and discussion
4.5Conclusion and outlook
References
Chapter ⅤPlasmonEnhanced Upconversion Photoluminescence:
Physical Mechanism and Applications
5.1Introduction
5.2Mechanism model of upconversion fluorescence
5.3Plasmonenhanced upconversion
5.3.1Plasmonenhanced upconversion photoluminescence
from periodic plasmonic nanostructures
5.3.2Plasmonenhanced upconversion photoluminescence
from nonperiodic plasmonic nanostructures
5.4Plasmonenhanced from single rareearthdoped
nanoparticles
5.5The applications of plasmonenhanced UC luminescence
5.6Conclusion
References
Chapter ⅥTimeResolved PlasmonEnhanced Fluorescence for
ExcitonPlasmon Interaction
6.1Introduction
6.2Two methods for the excitonplasmon coupling
6.2.1The first method
6.2.2The second method
6.3Conclusion
References
Chapter ⅦPlasmonEnhanced Fluorescence Resonance Energy Transfer
7.1Introduction
7.2Fluorescence resonance energy transfer
7.2.1The definition and physical mechanism of FRET
7.2.2Methods to measure FRET efficiency
7.2.3Applications of FRET
7.3Plasmonenhanced fluorescence
7.3.1The principle of PEF
7.3.2Principle of PEFRET
7.3.3Application of PEFRET
7.4Summary
References
ACKNOWLEDGEMENTS
Plasmon-enhanced Fluorescence: Principles and Applications
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