CHAPTER 1 Introduction
1.1 Concept of Spectroscopy
1.2 Concept of Photonics and Plasmonics
1.3 Concept of Plasmon-Enhanced Spectroscopy
1.3.1 Plasmon-enhanced fluorescence
1.3.2 Plasmon-enhanccd Resonance fluorescence energy transfer
1.3.3 Surface-enhanced Raman scattering
1.3.4 The remote-excitation of SERS
1.3.5 Tip-enhanced Raman scattering spectroscopy
1.3.6 Remote excitation-TERS microscopy
1.3.7 Plasmon-enhanced coherence anti-Stokes Raman
scattering images
References
CHAPTER 2 Molecular Spectroscopy
2.1 Jablonski Diagram
2.2 Electronic State Transition
2.2.1 Ultraviolet-visible-near IR absorption spectroscopy
2.2.2 Two-photon absorption spectroscopy
2.2.3 Fluorescence spectroscopy
2.2.4 Fluorescence resonance energy transfer
2.3 Vibration spectroscopy
2.3.1 Raman spectroscopy
2.3.2 Infrared spectroscopy
2.3.3 Modes of molecular vibration
2.3.4 The difference between Raman and spectra
2.4 Rotational State
2.5 Electronic and Vibrational Spectroscopy by Circularly Polarized Light
2.5.1 Electronic circular dichroism
2.5.2 Raman optical activity
References
CHAPTER 3 Photonics and Plasmonics
3.1 Introduction
3.2 Exciton
3.2.1 Brief introduction of excitons
3.2.2 Exciton classification
3.3 Polariton
3.3.1 Brief introduction of polariton
3.3.2 Polariton types
3.4 Plasmon and surface plasmons
3.4.1 Plasmons
3.4.2 Surface plasmons
3.4.3 Surface plasmon polaritons
3.5 Plasmon-Exciton Coupling.Plexciton
References
CHAPTER 4 2D Borophene excitons
4.1 Introduction
4.2 Monolayer borophene
4.2.1 Monolayer borophene on Ag(111)
4.2.2 Monolayer borophene on Al(111)
4.2.3 Monolayer borophene on Ir(111)
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