Plasmon and Plasmon Exciton Hybrids for Surface Catalytic Reactions(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、王鑫鑫、宗欢

出版:清华大学出版社

年代:2019 更多图书信息

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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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目录

CHAPTER 1 Introduction

CHAPTER 2 SP-Driven Oxidation CatalyticReactions

2.1 SP-Driven Oxidation Catalytic Reactions by SERS in Atmosphere Environment

2.1.1 Genuine SERS Spectrum of PATP

2.1.2 SP-Driven Oxidation Catalytic Reactions of PATP

2.1.3 SP-Driven Oxidation Catalytic Reactions on Metal/ Semiconductor Hybrids

2.2 SP-Driven Oxidation Catalytic Reactions by SERS in Aqueous Environment

2.3 SP-Driven Oxidation Catalytic Reactions by TERS in Ambient Environment

2.4 SP-Driven Oxidation Catalytic Reactions by TERS in HV Environment CHAPTER 3SPDriven Reduction Catalytic Reactions

3.1 SP-Driven Reduction Catalytic Reactions in Atmosphere Environment

3.1.1 SP-Driven Reduction Catalytic Reactions by SERS in
Atmosphere Environment

3.1.2 SP-Driven Reduction Catalytic Reactions on Metal/ Semiconductor Hybrids

3.2 SP-Driven Reduction Catalytic Reactions by SERS in Aqueous Environment

3.2.1 Setup of Electrochemical SERS

3.2.2 Potential-Dependent Plasmon Driven Sequential Chemical Reactions

3.2.3 pH-Dependent Plasmon Driven Sequential Chemical Reactions

3.2.4 Electrooptical Tuning of Plasmon Driven Double Reduction Interface Catalysis

3.3 The Stability of Plasmon Driven Reduction Catalytic Reactions in Aqueous and Atmosphere Environment

3.4 SP-Driven Reduction Catalytic Reactions by TERS

3.4.1 SP-Driven Reduction Catalytic Reactions by TERS in Ambient Environment

3.4.2 SP-Driven Reduction Catalytic Reactions by TERS in HV Environment

3.4.3 Plasmon Hot Electrons or Thermal Effect on SP-Driven Reduction Catalytic Reactions in HV Environment

CHAPTER 4P hoto- or Plasmon Induced Oxidized and Reduced Reactions

CHAPTER 5The Priority of Plasmon Driven Reduction or Oxidation Reactions
5.1 Plasmon Driven DiazoCoupling Reactions in Atmosphere Environment

5.1.1 Characterization of SERS and GrapheneMediated SERS Substrate

5.1.2 Selective Reduction Reactions of PNA on the Ag NPs in Atmosphere Environment

5.1.3 Selective Reduction Reactions of PNA on the Surface of G-Ag NPs Hybrids in Atmosphere Environment

5.1.4 Hot ElectronInduced Reduction Reactions of PNA on G-Ag NWs Hybrids in Atmosphere Environment

5.2 The Priority of Plasmon Driven Reduction or Oxidation in Aqueous Environment

5.3The Priority of Plasmon Driven Reduction or Oxidation in HV Environment

CHAPTER 6 Plasmon Exciton Coupling Interaction for Surface Catalytic Reactions6-1Plasmon Exciton Coupling Interaction for Surface Oxidation Catalytic Reactions

6.1.1 Characterization of Ag NPs-TiO2 Film Hybrids

6.1.2 Ag NPsTiO2 Film Hybrids for Plasmon Exciton Codriven Surface Oxidation Catalytic Reactions

6.1.3 Plasmon Exciton Coupling of Ag NPs-TiO2 Film Hybrids Studied by SERS Spectroscopy

6.1.4 Plasmon Exciton Coupling of Ag NPs-TiO2 Film Hybrids for Surface Oxidation Catalytic Reactions under Various Environments

6.2P lasmon Exciton Coupling Interaction for Surface Reduction Catalytic Reactions

6.2.1 Plasmon Exciton Coupling of Monolayer MoS2-Ag NPs Hybrids for Surface Reduction Catalytic Reactions

6.2.2 Ultrafast Dynamics of Plasmon Exciton Coupling Interaction of G-Ag NWs Hybrids for Surface Reduction Catalytic Reactions

6.2.3 Surface Reduction Catalytic Reactions on GSERS in Electrochemical Environment

6.3 Unified Treatment for Plasmon Exciton Codriven Reduction and Oxidation Reactions

CHAPTER 7 Plasmon Exciton Coupling Interaction by Femtosecond Pump-Probe Transient Absorption Spectroscopy
7.1 Femtosecond-Resolved Plasmon Exciton Coupling Interaction of G-Ag NWs Hybrids

7.1.1 Femtosecond-Resolved Plasmonic Dynamics of Ag NWs

7.1.2 Femtosecond-Resolved Plasmonic Dynamics of Single Layer Graphene

7.1.3 Femtosecond-Resolved Plasmonic Dynamics of Plasmon Exciton Coupling Interaction of GAg
NWs Hybrids

7.2Physical Mechanism on Plasmon Exciton Coupling Interaction Revealed by Femtosecond PumpProbe Transient Absorption Spectroscopy

CHAPTER 8 Electrically Enhanced Plasmon Exciton Coupling Interaction for Surface Catalytic Reactions

8.1 Electrooptical Synergy on Plasmon Exciton-Codriven Surface Reduction Catalytic Reactions

8.1.1 Plasmon Exciton Coupling Interaction of Monolayer G- NPs

8.1.2 Electrical Properties of Plasmon Exciton
Coupling Device

8.1.3 Plasmon ExcitonCodriven Surface Reduction Catalytic Reactions

8.1.4 Bias-VoltageDependent Plasmon Exciton Codriven Surface Reduction Catalytic Reactions

8.1.5 GateVoltageDependent Plasmon Exciton Codriven Surface Reduction Catalytic Reactions

8.2 Electrically Enhanced Hot Hole Driven Surface Oxidation Catalytic Reactions

CHAPTER 9 Plasmon Waveguide Driven Chemical Reactions

9.1 Plasmon Waveguide for Remote Excitation

9.1.1 Features of Remote Excitation SERS and Early Application

9.1.2 Remote Excitation Plasmon Driven Chemical
Reactions

9.2 Remote Excitation PolarizationDependent Surface Photochemical Reactions by Plasmon Waveguide

9.3 Remote-Excitation TimeDependent Surface Catalytic Reactions by Plasmon Waveguide

CHAPTER 10 Plasmon Driven Dissociation

10.1 Resonant Dissociation of Surface Adsorbed Molecules by Plasmonic Nanoscissors

10.2 Plasmonic Nanoscissors for Molecular Design

10.3 Plasmon Driven Dissociation of H2

10.3.1 Plasmon Driven Dissociation of H2 on Au

10.3.2 Plasmon Driven Dissociation of H2 on Aluminum Nanocrystal

10.4 Plasmon Driven Dissociation of N2

10.5 Plasmon Driven Water Splitting

10.5.1 Plasmon Driven Water Splitting under Visible Illumination

10.5.2 An autonomous photosynthetic device of Plasmon Driven Water Splitting

10.6 Plasmon Driven Dissociation of CO2

10.7 RealSpace and RealTime Observation of a PlasmonInduced Chemical Reactions of a Single Molecule

10.8 Competition between Reactions and Degradation Pathways in Plasmon Driven Photochemistry

CHAPTER 11Summary and Outlook

Acknowledgements

References
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作者:孙萌涛、王鑫鑫、宗欢
出版:清华大学出版社

ISBN:9787302518570

出版日期:2019-06-01

清华大学出版社

清华大学出版社

清华大学出版社成立于1980年6月,是由教育部主管、清华大学主办的综合出版单位。植根于“清华”这座久负盛名的高等学府,秉承清华人“自强不息,厚德载物”的人文精神,清华大学出版社在短短二十多年的时间里,迅速成长起来。作为来自一流大学的出版单位,清华大学出版社始终坚持弘扬科技文化产业、服务科教兴国战略的出版方向,把出版高等学校教学用书和科技图书作为主要任务,并为促进学术交流、繁荣出版事业设立了多项出版基金,逐渐形成了以出版高水平的教材和学术专著为主的鲜明特色,在教育出版领域树立了强势品牌。目前,清华版教材已在全国一百多所院校得到广泛使用。高品质、多层次的计算机图书是清华大学出版社的一大品牌支柱。20世纪80年代末,在席卷全球的信息化浪潮中,清华大学出版社快速切入计算机图书市场,逐渐成为并一直保持这一市场的领先地位,为发展中国计算机教育做出了巨大贡献。

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