基本説明
The Handbook of Green Chemistry comprises of 12 volumes in total, split into four subject-specific sets. The four sets are available individually - Set I: Green Catalysis, Set II: Green Solvents, Set III: Green Processes, Set IV: Green Products.
Full Description
In a world where the emphasis has shifted to being as Green and environmentally friendly as possible, leads to the requirement of this important 3-book set of the Handbook of Green Chemistry edited by the father and pioneer of Green Chemistry, Professor Paul Anastas.
This series summarises the significant body of work that has accumulated over the past decade that details the breakthroughs, innovation and creativity within Green Chemistry and Engineering.
Set III comprises of 3 books, with each volume focussing on a different area and edited by leading scientists in the field:
Green Synthesis - Editor: C.-J. Li
Green Nanoscience - Editors: A. Perosa and M. Selva
Designing Safer Chemicals - Editors: P.T. Anastas, R. Boethling, A. Voutchkova
An essential collection for anyone wishing to gain an understanding of the world of green chemistry and for a variety of chemists, environmental agencies and chemical engineers.
Contents
GREEN SYNTHESIS
Atom Economy: a Challenge for Enhanced Synthetic Efficiency
Evaluating the Greenness of Synthesis
Alternative Feedstocks for Synthesis
Synthesis in Green Solvents
Development and Application of Isocyanide-based Multicomponent Reactions
Flow Syntheses
Synthesis Without Protecting Groups
Biological Synthesis of Pharmaceuticals
Syntheses via C-H Bond Functionalizations
Synthesis Without Metals
Chemistry Beyond Functional Group Transformation
Synthesis Assisted by Electricity
Parameterization and Tracking of Optimization of Synthesis Strategy Using Computer Spreadsheet Algorithms
GREEN NANOSCIENCE
Formation of Nanoparticles Assisted by Ionic Liquids
CO2-Expanded Liquids for Nanoparticle Processing
Green Synthesis and Applications of Magnetic Nanoparticles
Photocatalysis by Nanostructured TiO2-based Semiconductors
Nanoencapsulation for Process Intensification
Formation of Nanoemulsions by Low-Energy Methods and Their Use as Templates for the Preparation of Polymeric Nanoparticles
Toxicity of Carbon Nanotubes
A Review of Green Synthesis of Nanophase Inorganic Materials for Green Chemistry Applications
Use of Extracted Anthocyanin Derivatives in Nanostructures for Solar Energy Conversion
Nanomaterials from Biobased Amphiphiles: the Functional Role of Unsaturations
DESIGNING SAFER CHEMICALS
The Design of Safer Chemicals: Past, Present, and Future Perspectives
Differential Toxicity Characterization of Green Alternative Chemicals
Understanding Mechanisms of Metabolic Transformations as a Tool for Designing Safer Chemicals
Structural and Toxic Mechanism-Based Approaches to Designing Safer Chemicals
Informing Substitution to Safer Alternatives
Design of Safer Chemicals - Ionic Liquids
Designing Safer Organocatalysts - What Lessons Can Be Learned When the Rebirth of an Old Research Area Coincides with the Advent of Green Chemistry?
Life-Cycle Concepts for Sustainable Use of Engineered Nanomaterials in Nanoproducts
Drugs
Greener Chelating Agents
Improvements to the Environmental Performance of Synthetic-Based Drilling Muds
Biochemical Pesticides: Green Chemistry Designs by Nature
Property-Based Approaches to Design Rules for Reduced Toxicity
Reducing Carcinogenicity and Mutagenicity Through Mechanism-Based Molecular Design of Chemicals
Reducing Ecotoxicity
Designing for Non-Persistence
Reducing Physical Hazards: Encouraging Inherently Safer Production
Interaction of Chemicals with the Endocrine System
