导语

  

内容提要

  

    张龙、贡长生、代斌主编的《绿色化学与技术(英文版)》以绿色化学原理为主线，突出理论创新、知识创新和技术创新。同时，突破一般绿色化学教材体系的框框，在教材中编写了“过程强化技术集成”、“绿色化学化工过程的评估”和“循环经济和生态工业园”，以充分体现绿色化学的内涵和外延，展示绿色化学化工的辉煌前景。

1  Introduction,
  1.1  Rise and Development of Green Chemistry
    1.1.1  The Crisis of the Ecological Environment Calling for Green Chemistry
    1.1.2  Promotion of Green Chemistry by Propagation of Environment Protection and Regulations
    1.1.3  The Development of Chemical Industry Declaring Green Chemistry
    1.1.4  Sustainable Development Promoting the Green Chemistry
    1.1.5  Green Chemistry and Technology is Becoming the Hotspot of Various Governments and Academia
  1.2  The Contents and Characteristics of Green Chemistry
    1.2.1  The Meaning of Green Chemistry
    1.2.2  Research Contents of Green Chemistry
    1.2.3  The Characteristics of Green Chemistry
  1.3  The Developments of Green Chemistry in Domestic and at Abroad
    1.3.1  The Developments of Green Chemistry at Abroad
    1.3.2  Green Chemistry Research Receiving Much Attention in China
  1.4  Green Chemistry is the Only Way for the Sustainable Development of Chemical Industry in China
    1.4.1  Industrial Revolution Originated from Green Chemistry
    1.4.2  Green Chemistry is the Preferential Mode for the Sustainable Development of Chinese Chemical Industry
    1.4.3  Corresponding Solutions
  Questions
  References
2  Basic principles of green chemistry
  2.1  Waste Prevention Instead of Remediation
  2.2  Atom Economy
  2.3  Less Hazardous Chemical Synthesis
  2.4  Designing Safer Chemicals
  2.5  Safer Solvents and Auxiliaries
  2.6  Design for Energy Efficiency
  2.7  Use of Renewable Feedstocks
  2.8  Reduce Derivatives
  2.9  Catalysis
  2.10  Design for Degradation
  2.11  Real-time Analysis for Pollution Prevention
  2.12  Inherently Safer Chemlstry for Accident Prevention
  References
3  Green technologies in Inorganic synthesis
  3.1  Hydrothermat Synthesis
    3.1.1  Introduction
    3.1.2  Principle
    3.1.3  Application Examples of Hydrothermal Synthesis
  3.2  Sot-get Method
    3.2.1  Introduction
    3.2.2  Principle
    3.2.3  Application of Sol-gel Method
  3.3  Local Chemical Reaction Method
    3.3.1  Dehydration
    3.3.2  Intercalation
    3.3.3  Ion Exchange Reaction
    3.3.4  Isomorphous Substitution
    3.3.5  Decomposition
    3.3.6  Redox Reaction  3.4  Low-temperature SoUd-phase Reaction
    3.4.1  Introduction
    3.4.2  Mechanism of Solid-phase Reaction
    3.4.3  Applications of Low.temperature Solid-phase
  Reaction
  3.5  Rheological Phase Reaction
    3.5.1  Introduction
    3.5.2  The Principle of Rheoiogical Phase Reaction
    3.5.3  Applications of Rheological Phase Reaction
  3.6  The Precursor Method
    3.6.1  Summary
    3.6.2  Application of Precursor Method
  3.7  Melting Method
  3.8  Chemical Vapor Deposition
    3.8.1  Introduction
    3.8.2  The Principle of CVD
    3.8.3  The Application of CVD Method
  3.9  Polymer Template Method
    3.9.1  Introduction
    3.9.2  Applications of the Template Method
  Questions
  References
4  Green organic synthesis
5  Green synthesis chemistry for polymer materials
6  Green technology in fine chemical industry
7  Green technologies for Intermediate product synthesis
8  Green processes for carbon dioxide resource utilization
9  Green chemistry and chemical processes for biomass utilization
10  Green chemistry in exploiting marine resources
11  The greening of the energy industry
12  Circular economy and eco-industrial parks
13  Intensification technology and practice in chemical processes
14  Green chemistry assessment and practice
Index