本书从原理和应用两个方向展开,详细介绍了多种环境中的等离激元驱动催化反应和等离激元激子耦合驱动催化反应。主要可分为以下部分: 基于表面增强拉曼散射(SERS)的等离激元驱动催化反应在大气和液相中的机理和应用、基于针尖增强拉曼散射(TERS)的等离激元驱动催化反应在高真空中的机理和应用、等离激元激子耦合相互作用的物理模型和特性研究、等离激元激子耦合驱动催化反应在电化学液相中的应用,以及光电协同调控下的耦合驱动催化反应。通过介绍大量经典研究案例,结合相应理论计算与模型简介,深入浅出地介绍了等离激元激子相互作用的意义与发展前景。
本书适用于有一定理论基础的物理学本科生和有光学相关研究经历的研究生和科研工作者。
等离激元-激子相互作用:原理和应用在介绍经典的理论解释和应用时加入大量科研*前沿的进展,保证读者在能理解基础概念的同时,对本领域的发展进展和热点有一定了解。
CONTENTS
PlasmonExciton Interaction: Principles
and Applications
CONTENTS
CHAPTER 1Introduction
References
CHAPTER 2PlasmonDriven
Chemical Reactions Based on
SERS in Atmosphere
2.1Brief introduction
2.2Plasmondriven oxidation
reactions
2.2.1Genuine SERS spectrum of PATP
2.2.2Experimental and theoretical
investigations of
plasmondriven oxidation
reactions
2.3Plasmondriven reduction
reactions
2.4Priority between plasmondriven
oxidation and
reduction reactions
References
CHAPTER 3PlasmonDriven
Surface Catalytic Reactions Monitored by
Electrochemical SERS in Liquid
3.1Introduction
3.2Designed apparatus
3.3Plasmondriven reduction
reactions in liquid
3.3.1Laserintensitydependent
3.3.2Potentialdependent
3.3.3LSPRdependent
3.3.4pHdependent
3.4Plasmondriven oxidation
reactions
3.5Priority between plasmondriven
surface catalytic
reactions in liquid
References
CHAPTER 4PlasmonDriven
Surface Catalysis Reactions Monitored by
TERS in High Vacuum
4.1Introduction of TERS
4.2Brief history of TERS
4.3Setup of TERS
4.4Plasmondriven surface
catalytic reactions
References
CHAPTER 5PlasmonExciton CoDriven
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 6PlasmonExciton CoDriven
Catalytic Reactions Based on
Electrochemical SERS
6.1Introduction
6.2Plasmonexciton codriven
reduction reactions
6.3Plasmonexciton codriven
oxidation reactions
6.4The priority in the plasmonexciton codriven
catalytic reactions
6.5Conclusions
References
CHAPTER 7ElectroOptical
Synergy on PlasmonExciton CoDriven Surface
Reduction Reactions
7.1Introduction
7.2Properties of electrooptical
device
7.2.1Optical measurements
7.2.2Electrical measurements
7.3Plasmonexciton codriven
surface reduction reactions
7.3.1Laser intensitydependent
surface reduction
reactions
7.3.2Biasvoltagedependent
surface reduction reaction
7.3.3Gatevoltagedependent
surface reduction reaction
References
Acknowledgements