书籍详情
纳米催化化学(英文版)
作者:康振辉,刘阳 编
出版社:苏州大学出版社
出版时间:2015-06-01
ISBN:9787567214064
定价:¥29.00
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内容简介
《纳米催化化学(英文版)》主要参考了相关的多部英文版的科技书籍,并针对苏州大学化学学院学生的知识基础和课程设置进行了适当的删减或增补。经过三年的纳米催化教学的实践,《纳米催化化学(英文版)》目前确定为8章。《纳米催化化学(英文版)》主要适用于大学专业性课程教材。
作者简介
暂缺《纳米催化化学(英文版)》作者简介
目录
1 Introduction to Catalysis
1.1 What Is Catalysis?
1.2 Catalysts Can Be Atoms, Molecules, Enzymes and Solid Surfaces
1.3 Why Is Catalysis Important?
1.4 Catalysis as a Multidisciplinary Science
1.5 Catalysis in Journals
2 The Basics of Catalysis
2.1 Catalysis as a Kinetic Phenomenon
2.2 Practical Approaches in Kinetic Studies
2.3 An Overview of Some Basic Concepts in Catalysis
3 Homogeneous Catalysis
3.1 Metal Complex Catalysis in the Liquid Phase
3.2 Homogeneous Catalysis Without Metals
4 Heterogeneous Catalysis
4.1 Classic Gas/Solid Systems
4.2 Liquid/Solid and Liquid/Liquid Catalytic Systems
5 Catalyst Characterization
5.1 X-ray Diffraction (XRD)
5.2 X-ray Photoelectron Spectroscopy (XPS)
5.3 Extended X-ray Absorption Fine Structure (EXAFS)
5.4 Electron Microscopy
5.5 M6ssbauer Spectroscopy
5.6 Ion Spectroscopy: SIMS, LEIS, RBS
5.7 Temperature-Programmed Reduction, Oxidation and Sulfidation
5.8 Infrared Spectroscopy
5.9 Surface Science Techniques
6 Kinetics
6.1 Catalytic Reactions
6.2 Langmuir Adsorption Isotherms
6.3 Reaction Mechanisms
6.4 Entropy, Entropy Production, Auto Catalysis and Oscillating Reactions
6.5 Kinetics of Enzyme-Catalyzed Reactions
7 Basic Introduction to Nanocatalysis
7.1 Introduction
7.2 Brief Description of the Development of Surface Science
7.3 Catalysis at Nanoscale
7.4 Future Challenges
8 Catalysis by Gold Nanoparticles
8.1 Preparative Methods
8.2 Properties of Nanoparticulate Gold Catalysts
8.3 Reactions Catalysed by Nanocatalytic Gold and Gold Alloys
1.1 What Is Catalysis?
1.2 Catalysts Can Be Atoms, Molecules, Enzymes and Solid Surfaces
1.3 Why Is Catalysis Important?
1.4 Catalysis as a Multidisciplinary Science
1.5 Catalysis in Journals
2 The Basics of Catalysis
2.1 Catalysis as a Kinetic Phenomenon
2.2 Practical Approaches in Kinetic Studies
2.3 An Overview of Some Basic Concepts in Catalysis
3 Homogeneous Catalysis
3.1 Metal Complex Catalysis in the Liquid Phase
3.2 Homogeneous Catalysis Without Metals
4 Heterogeneous Catalysis
4.1 Classic Gas/Solid Systems
4.2 Liquid/Solid and Liquid/Liquid Catalytic Systems
5 Catalyst Characterization
5.1 X-ray Diffraction (XRD)
5.2 X-ray Photoelectron Spectroscopy (XPS)
5.3 Extended X-ray Absorption Fine Structure (EXAFS)
5.4 Electron Microscopy
5.5 M6ssbauer Spectroscopy
5.6 Ion Spectroscopy: SIMS, LEIS, RBS
5.7 Temperature-Programmed Reduction, Oxidation and Sulfidation
5.8 Infrared Spectroscopy
5.9 Surface Science Techniques
6 Kinetics
6.1 Catalytic Reactions
6.2 Langmuir Adsorption Isotherms
6.3 Reaction Mechanisms
6.4 Entropy, Entropy Production, Auto Catalysis and Oscillating Reactions
6.5 Kinetics of Enzyme-Catalyzed Reactions
7 Basic Introduction to Nanocatalysis
7.1 Introduction
7.2 Brief Description of the Development of Surface Science
7.3 Catalysis at Nanoscale
7.4 Future Challenges
8 Catalysis by Gold Nanoparticles
8.1 Preparative Methods
8.2 Properties of Nanoparticulate Gold Catalysts
8.3 Reactions Catalysed by Nanocatalytic Gold and Gold Alloys
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