孙萌涛、全军著的《等离激元增强荧光--原理和应用(英文版)(精)/纳米光子学丛书》介绍了表面等离激元增强荧光的物理原理和应用。首先详细介绍了表面等离激元增强荧光的物理原理和机制；然后介绍了表面等离激元增强荧光在各方面的应用，包括单光子激发的表面等离激元增强荧光、针尖增强荧光、表面等离激元增强的上转换荧光、时间分辨荧光在表面等离激元激子相互作用中的应用，以及表面等离激元增强的荧光共振能转移等方面。
本书不但可以使读者深入了解表面等离激元增强荧光的原理和应用，对科研工作者开辟表面等离激元增强荧光在将来可能的新的研究方向也具有一定的指导意义。本书可供科研院所的科研工作者参考使用，也可供研究生和高年级本科生阅读学习。

Chapter Ⅰ Introduction
References
Chapter Ⅱ Physical Mechanism of Plasmon-Enhanced Fluorescence
2.1 Introduction
2.2 The principle of PEF
References
Chapter Ⅲ Plasmon-Enhanced Fluorescence
3.1 Introduction
3.2 PEF from periodical metallic plasmonic nanostructures
3.2.1 PEF from nanograting substrate
3.2.2 PEF from nanohole arrays substrate
3.2.3 PEF from nanoparticle arrays substrate
3.2.4 PEF from nanorod arrays substrate
3.3 PEF from nonperiodical metallic plasmonic nanostructure
3.3.1 PEF from metallic silver island substrate
3.3.2 PEF from metallic fractal-like substrate
3.3.3 PEF from deposited metallic nanoparticle substrate
3.4 The wavelength and spacer effect towards the fluorescence enhancement
3.5 Conclusion and prospect
References
Chapter Ⅳ Tip-Enhanced Fluorescence
4.1 Introduction
4.2 Experimental works on tip-enhanced fluorescence
4.3 Theoretical calculations on tip-enhanced Raman spectroscopy
4.4 Results and discussion
4.5 Conclusion and outlook
References
Chapter Ⅴ Plasmon-Enhanced Upconversion Photoluminescence: Physical Mechanism and Applications
5.1 Introduction
5.2 Mechanism model of upconversion fluorescence
5.3 Plasmon-enhanced upconversion
5.3.1 Plasmon-enhanced upconversion photoluminescence from periodic plasmonic nanostructures
5.3.2 Plasmon-enhanced upconversion photoluminescence from nonperiodic plasmonic nanostructures
5.4 Plasmon-enhanced from single rare-earth-doped nanoparticles
5.5 The applications of plasmon-enhanced UC luminescence
5.6 Conclusion
References
Chapter Ⅵ Time-Resolved Plasmon-Enhanced Fluorescence for Exciton-Plasmon Interaction
6.1 Introduction
6.2 Two methods for the exciton-plasmon coupling
6.2.1 The first method
6.2.2 The second method
6.3 Conclusion
References
Chapter Ⅶ Plasmon-Enhanced Fluorescence Resonance Energy Transfer
7.1 Introduction
7.2 Fluorescence resonance energy transfer
7.2.1 The definition and physical mechanism of FRET
7.2.2 Methods to measure FRET efficiency
7.2.3 Applications of FRET
7.3 Plasmon-enhanced fluorescence
7.3.1 The principle of PEF
7.3.2 Principle of PE-FRET
7.3.3 Application of PE-FRET
7.4 Summary
References
ACKNOWLEDGEMENTS