CONTENTS
Plasmonª²Exciton Interaction£º Principles and Applications
CONTENTS
CHAPTER 1Introduction
References
CHAPTER 2Plasmonª²Driven Chemical Reactions Based on
SERS in Atmosphere
2.1Brief introduction
2.2Plasmonª²driven oxidation reactions
2.2.1Genuine SERS spectrum of PATP
2.2.2Experimental and theoretical investigations of
plasmonª²driven oxidation reactions
2.3Plasmonª²driven reduction reactions
2.4Priority between plasmonª²driven oxidation and
reduction reactions
References
CHAPTER 3Plasmonª²Driven Surface Catalytic Reactions Monitored by
Electrochemical SERS in Liquid
3.1Introduction
3.2Designed apparatus
3.3Plasmonª²driven reduction reactions in liquid
3.3.1Laserª²intensityª²dependent
3.3.2Potentialª²dependent
3.3.3LSPRª²dependent
3.3.4pHª²dependent
3.4Plasmonª²driven oxidation reactions
3.5Priority between plasmonª²driven surface catalytic
reactions in liquid
References
CHAPTER 4Plasmonª²Driven Surface Catalysis Reactions Monitored by
TERS in High Vacuum
4.1Introduction of TERS
4.2Brief history of TERS
4.3Setup of TERS
4.4Plasmonª²driven surface catalytic reactions
References
CHAPTER 5Plasmonª²Exciton Coª²Driven Surface Catalytic Reactions
5.1Introduction
5.2Mechanisms
5.2.1Free space spontaneous emission
5.2.2Spontaneous emission in cavities
5.3Femtosecond absorption
5.4Applications
References
CHAPTER 6Plasmonª²Exciton Coª²Driven Catalytic Reactions Based on
Electrochemical SERS
6.1Introduction
6.2Plasmonª²exciton coª²driven reduction reactions
6.3Plasmonª²exciton coª²driven oxidation reactions
6.4The priority in the plasmonª²exciton coª²driven
catalytic reactions
6.5Conclusions
References
CHAPTER 7Electroª²Optical Synergy on Plasmonª²Exciton Coª²Driven Surface
Reduction Reactions
7.1Introduction
7.2Properties of electroª²optical device
7.2.1Optical measurements
7.2.2Electrical measurements
7.3Plasmonª²exciton coª²driven surface reduction reactions
7.3.1Laser intensityª²dependent surface reduction
reactions
7.3.2Biasª²voltageª²dependent surface reduction reaction
7.3.3Gateª²voltageª²dependent surface reduction reaction
References
Acknowledgements
