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等离激元-激子相互作用--原理和应用(英文版)(精)/纳米光子学丛书

  • 定价: ¥59
  • ISBN:9787302504474
  • 开 本:16开 精装
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  • 出版社:清华大学
  • 页数:128页
  • 作者:孙萌涛//林炜铧//...
  • 立即节省:
  • 2018-06-01 第1版
  • 2018-06-01 第1次印刷
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导语

  

内容提要

  

    孙萌涛、林炜铧、梁文杰著的《等离激元-激子相互作用--原理和应用》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。

目录

CHAPTER 1  Introduction
  References
CHAPTER 2  PlasmonDriven Chemical Reactions Based on
  SERS in Atmosphere
  2.1  Brief introduction
  2.2  Plasmondriven oxidation reactions
    2.2.1  Genuine SERS spectrum of PATP
    2.2.2  Experimental and theoretical investigations of
  plasmondriven oxidation reactions
  2.3  Plasmondriven reduction reactions
  2.4  Priority between plasmondriven oxidation and
  reduction reactions
  References
CHAPTER 3  PlasmonDriven Surface Catalytic Reactions Monitored by
  Electrochemical SERS in Liquid
  3.1  Introduction
  3.2  Designed apparatus
  3.3  Plasmondriven reduction reactions in liquid
    3.3.1  Laserintensitydependent
    3.3.2  Potentialdependent
    3.3.3  LSPRdependent
    3.3.4  pHdependent
  3.4  Plasmondriven oxidation reactions
  3.5  Priority between plasmondriven surface catalytic
  reactions in liquid
  References
CHAPTER 4  PlasmonDriven Surface Catalysis Reactions Monitored by
  TERS in High Vacuum
  4.1  Introduction of TERS
  4.2  Brief history of TERS
  4.3  Setup of TERS
  4.4  Plasmondriven surface catalytic reactions
  References
CHAPTER 5  PlasmonExciton CoDriven Surface Catalytic Reactions
  5.1  Introduction
  5.2  Mechanisms
    5.2.1  Free space spontaneous emission
    5.2.2  Spontaneous emission in cavities
  5.3  Femtosecond absorption
  5.4  Applications
  References
CHAPTER 6  PlasmonExciton CoDriven Catalytic Reactions Based on
  Electrochemical SERS
  6.1  Introduction
  6.2  Plasmonexciton codriven reduction reactions
  6.3  Plasmonexciton codriven oxidation reactions
  6.4  The priority in the plasmonexciton codriven
  catalytic reactions
  6.5  Conclusions
  References
CHAPTER 7  ElectroOptical Synergy on PlasmonExciton CoDriven Surface
  Reduction Reactions
  7.1  Introduction
  7.2  Properties of electrooptical device
    7.2.1  Optical measurements
    7.2.2  Electrical measurements
  7.3  Plasmonexciton codriven surface reduction reactions
    7.3.1  Laser intensitydependent surface reduction
  reactions
    7.3.2  Biasvoltagedependent surface reduction reaction
    7.3.3  Gatevoltagedependent surface reduction reaction
  References
  Acknowledgements