表面等离激元及其与激子杂化在表面催化反应中的应用
本书特色
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本书是基于作者多年在表面等离激元催化领域的科研成果,结合本领域的前沿科技进展,详述了表面等离激元-激子杂化在表面等离激元杂化领域的科研进展,详细全面地系统介绍。
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内容简介
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本书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。
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作者简介
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主要从事基于表面等离激元增强的分子拉曼光谱的实验和理论研究。实现高真空针尖增强拉曼光谱仪,实现目标分子拉曼光谱的超灵敏检测,并揭示表面等离激元增强拉曼光谱的物理和化学机制。以通讯作者(或第一作者)在国际重要学术期刊上发表SCI 论文超过180 篇(其中ESI 高引论文8篇)。所有论文引用约5500多次,H-index 40。Researcher ID: B-1131-2008。10次应邀在国际重要期刊撰写本领域的综述。应邀撰写英文专著(科学出版社)2 本(第一作者)。2016 年,获辽宁省科学技术(自然科学)二等奖(个人第二)。2015 年,获辽宁省科学技术(自然科学)三等奖(个人第五)。
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目录
CHAPTER 1Introduction
CHAPTER 2SP�睤riven Oxidation Catalytic Reactions
2.1SP�睤riven Oxidation Catalytic Reactions by SERS in
Atmosphere Environment
2.1.1Genuine SERS Spectrum of PATP
2.1.2SP�睤riven Oxidation Catalytic Reactions of PATP
2.1.3SP�睤riven Oxidation Catalytic Reactions on Metal/
Semiconductor Hybrids
2.2SP�睤riven Oxidation Catalytic Reactions by SERS in
Aqueous Environment
2.3SP�睤riven Oxidation Catalytic Reactions by TERS in
Ambient Environment
2.4SP�睤riven Oxidation Catalytic Reactions by TERS in
HV Environment
CHAPTER 3SP�睤riven Reduction Catalytic Reactions
3.1SP�睤riven Reduction Catalytic Reactions in Atmosphere
Environment
3.1.1SP�睤riven Reduction Catalytic Reactions by SERS in
Atmosphere Environment
3.1.2SP�睤riven Reduction Catalytic Reactions on Metal/
Semiconductor Hybrids
3.2SP�睤riven Reduction Catalytic Reactions by SERS in
Aqueous Environment
3.2.1Setup of Electrochemical SERS
3.2.2Potential�睤ependent Plasmon Driven Sequential
Chemical Reactions
3.2.3pH�睤ependent Plasmon Driven Sequential Chemical
Reactions
3.2.4Electrooptical Tuning of Plasmon Driven Double
Reduction Interface Catalysis
3.3The Stability of Plasmon Driven Reduction Catalytic Reactions
in Aqueous and Atmosphere Environment
3.4SP�睤riven Reduction Catalytic Reactions by TERS
3.4.1SP�睤riven Reduction Catalytic Reactions by TERS in
Ambient Environment
3.4.2SP�睤riven Reduction Catalytic Reactions by TERS in
HV Environment
3.4.3Plasmon Hot Electrons or Thermal Effect on SP�睤riven
Reduction Catalytic Reactions in HV Environment
CHAPTER 4Photo�� or Plasmon Induced Oxidized and Reduced
Reactions
CHAPTER 5The Priority of Plasmon Driven Reduction or
Oxidation Reactions
5.1Plasmon Driven Diazo�睠oupling Reactions in Atmosphere
Environment
5.1.1Characterization of SERS and Graphene�睲ediated
SERS Substrate
5.1.2Selective Reduction Reactions of PNA on the Ag NPs
in Atmosphere Environment
5.1.3Selective Reduction Reactions of PNA on the Surface
of G�睞g NPs Hybrids in Atmosphere Environment
5.1.4Hot Electron�睮nduced Reduction Reactions of PNA
on G�睞g NWs Hybrids in Atmosphere Environment
5.2The Priority of Plasmon Driven Reduction or Oxidation in
Aqueous Environment
5.3The Priority of Plasmon Driven Reduction or Oxidation in
HV Environment
CHAPTER 6Plasmon Exciton Coupling Interaction for Surface
Catalytic Reactions
6��1Plasmon Exciton Coupling Interaction for Surface Oxidation
Catalytic Reactions
6.1.1Characterization of Ag NPs�睺iO2 Film Hybrids
6.1.2Ag NPs�睺iO2 Film Hybrids for Plasmon Exciton
Codriven Surface Oxidation Catalytic Reactions
6.1.3Plasmon Exciton Coupling of Ag NPs�睺iO2 Film
Hybrids Studied by SERS Spectroscopy
6.1.4Plasmon Exciton Coupling of Ag NPs�睺iO2 Film
Hybrids for Surface Oxidation Catalytic Reactions
under Various Environments
6.2Plasmon Exciton Coupling Interaction for Surface Reduction
Catalytic Reactions
6.2.1Plasmon Exciton Coupling of Monolayer MoS2�睞g NPs
Hybrids for Surface Reduction Catalytic Reactions
6.2.2Ultrafast Dynamics of Plasmon Exciton Coupling
Interaction of G�睞g NWs Hybrids for Surface
Reduction Catalytic Reactions
6.2.3Surface Reduction Catalytic Reactions on G�睸ERS in
Electrochemical Environment
6.3Unified Treatment for Plasmon Exciton Codriven Reduction
and Oxidation Reactions
CHAPTER 7Plasmon Exciton Coupling Interaction by Femtosecond
Pump�睵robe Transient Absorption Spectroscopy
7.1Femtosecond�睷esolved Plasmon Exciton Coupling
Interaction of G�睞g NWs Hybrids
7.1.1Femtosecond�睷esolved Plasmonic Dynamics of
Ag NWs
7.1.2Femtosecond�睷esolved Plasmonic Dynamics of
Single Layer Graphene
7.1.3Femtosecond�睷esolved Plasmonic Dynamics of
Plasmon Exciton Coupling Interaction of G�睞g
NWs Hybrids
7.2Physical Mechanism on Plasmon Exciton Coupling Interaction
Revealed by Femtosecond Pump�睵robe Transient Absorption
Spectroscopy
CHAPTER 8Electrically Enhanced Plasmon Exciton Coupling
Interaction for Surface Catalytic Reactions
8.1Electrooptical Synergy on Plasmon Exciton�睠odriven Surface
Reduction Catalytic Reactions
8.1.1Plasmon Exciton Coupling Interaction of Monolayer
G�睞g NPs
8.1.2Electrical Properties of Plasmon Exciton
Coupling Device
8.1.3Plasmon Exciton�睠odriven Surface Reduction
Catalytic Reactions
8.1.4Bias�睼oltage�睤ependent Plasmon Exciton Codriven
Surface Reduction Catalytic Reactions
8.1.5Gate�睼oltage�睤ependent Plasmon Exciton Codriven
Surface Reduction Catalytic Reactions
8.2Electrically Enhanced Hot Hole Driven Surface Oxidation
Catalytic Reactions
CHAPTER 9Plasmon Waveguide Driven Chemical Reactions
9.1Plasmon Waveguide for Remote Excitation
9.1.1Features of Remote Excitation SERS and Early
Application
9.1.2Remote Excitation Plasmon Driven Chemical
Reactions
9.2Remote Excitation Polarization�睤ependent Surface
Photochemical Reactions by Plasmon Waveguide
9.3Remote�睧xcitation Time�睤ependent Surface Catalytic
Reactions by Plasmon Waveguide
CHAPTER 10Plasmon Driven Dissociation
10.1Resonant Dissociation of Surface Adsorbed Molecules by
Plasmonic Nanoscissors
10.2Plasmonic Nanoscissors for Molecular Design
10.3Plasmon Driven Dissociation of H2
10.3.1Plasmon Driven Dissociation of H2 on Au
10.3.2Plasmon Driven Dissociation of H2 on Aluminum
Nanocrystal
10.4Plasmon Driven Dissociation of N2
10.5Plasmon Driven Water Splitting
10.5.1Plasmon Driven Water Splitting under Visible
Illumination
10.5.2An autonomous photosynthetic device of
Plasmon Driven Water Splitting
10.6Plasmon Driven Dissociation of CO2
10.7Real�睸pace and Real�睺ime Observation of a Plasmon
Induced Chemical Reactions of a Single Molecule
10.8Competition between Reactions and Degradation Pathways
in Plasmon Driven Photochemistry
CHAPTER 11Summary and Outlook
Acknowledgements
References
封面
书名:表面等离激元及其与激子杂化在表面催化反应中的应用
作者:孙萌涛
页数:未知
定价:¥109.0
出版社:清华大学出版社
出版日期:2019-06-01
ISBN:9787302518570
PDF电子书大小:62MB 高清扫描完整版