The Handbook of Green Chemistry supplies the one–stop reference for everything readers need to know about this field. Edited by Paul Anastas, one of the inventors of the twelve principles of green chemistry, the work covers topics like green solvents, catalysis, synthesis and many more. With top international expert contributors, it presents the essential set of innovative scientific solutions to real–world environmental situations. The Handbook of Green Chemistry comprises of 9 volumes in total, split into 3 subject–specific sets. The three sets are available individually. All 9 volumes are available individually, too. Set I: Green Catalysis – Volume 1: Homogeneous Catalysis – Volume 2: Heterogeneous Catalysis – Volume 3: Biocatalysis Set II: Green Solvents – Volume 4: Supercritical Solvents – Volume 5: Reactions in Water – Volume 6: Ionic Liquids Set III: Green Processes – Volume 7: Green Synthesis – Volume 8: Green Nanoscience – Volume 9: Designing Safer Chemicals The Handbook of Green Chemistry is also available as Online Edition . Podcasts Listen to two podcasts in which Professor Paul Anastas and Journals Editor Paul Trevorrow discuss the origin and expansion of Green Chemistry and give an overview of The Handbook of Green Chemistry . INDICE: GREEN CATALYSIS Volume 1: Homogeneous Catalysis Atom Economy Catalysis Involving Fluorous Phases: Fundamentals and Directions for Greener Methodologies Chemistry and Applications of Iron–TAML Catalysts in Green Oxidation Processes Based on Hydrogen Peroxide Microwave–Accelerated Homogeneous Catalysis in Water Ionic Liquids and Catalysis: The IFP Biphasic Difasol Process Immobilisation and Compartmentalisation of Homogeneous Catalysis Industrial Applications of Homogeneous Enantioselective Catalysts Hydrogenation for C–C Bond Formation Organocatalysis (Overview) Palladacycles in Catalysis Homogeneous Catalyst Design for the Synthesis of Aliphatic Polycarbonates and Polyesters Catalysis in High Temperature Water Volume 2: Heterogeneous Catalysis Zeolites in Catalysis Sol–Gel Sulphonic Acid Silicas as Catalysts Applications of Environmentally–Friendly TiO2 Photocatalysts in Green Chemistry Nanoparticles in Green Catalysis Heterogreeneous Chemistry Surface Bound Heterogeneous Catalysts via Surface Bound Organometallic and Inorganic Complexes Sustainable Heterogeneous Acid Catalysis by Heteropoly Acids TiO2 Based Solar Cells Sensitized by Metal Complexes (Overview) Automative Emission Control: Past, Present and Future Heterogeneous Catalysis for Hydrogen Production High Throughput Screening of Catalyst Libraries for Emissions Control Catalytic Conversion of High–Moisture Biomass to Synthetic Natural Gas in Supercritical Water Volume 3: Biocatalysis Catalysis with Cytochrome P450 Monooxygenases Biocatalytic Hydrolysis of Nitriles Biocatalytic Processes Using Ionic Liquids and Supercritical Carbon Dioxide Thiamine–Based Enzymes for Biotransformations Baeyer–Villiger Monooxygenases in Organic Synthesis Bioreduction by Microorganisms Biotransformations and the Pharma Industry Hydrogenases and Alternative Energy Strategies PAH Bioremediation by Microbial Communities and Enzymatic Activities GREEN SOLVENTS Volume 4: Supercritical Solvents Introduction High–pressure Methods and Equipment Basic Physical Properties, Phase Behavior and Solubility Expanded Liquid Phases in Catalysis: Gas–expanded Liquids and Liquid–Supercritical Fluid Biphasic Systems Synthetic Organic Chemistry in Supercritical Fluids Heterogeneous Catalyis Enzymatic Catalysis Polymerization in Supercritical Carbon Dioxide Synthesis of Nanomaterials Photochemical and Photo–induced Reactions in Supercritical Fluid Solvents Electrochemical Reactions Coupling Reactions and Separation in Tunable Fluids: Phase Transfer–Catalysis and Acid–catalyzed Reactions Chemistry in Near– and Supercritical Water Volume 5: Reactions in Water The Principles of and Reasons for Using Water as a Solvent for Green Chemistry Green Acid Catalysis in Water Green Bases in Water Green Oxidation in Water Green Reduction in Water Coupling Reactions in Water ‘On Water’ for Green Chemistry Pericyclic Reactions in Water, Towards Green Chemistry Non–conventional Energy Sources for Green Synthesis in Water (Microwave, Ultrasound, and Photo) Functionalization of Carbohydrates in Water Water Under Extreme Conditions for Green Chemistry Water as a Green Solvent for Pharmaceutical Applications Water as a Green Solvent for Bulk Chemicals Volume 6: Ionic Liquids Part I: Green Synthesis The Green Synthesis of Ionic Liquids Part II: Green Synthesis Using Ionic Liquids Green Organic Synthesis in Ionic Liquids Transition Metal Catalysis in Ionic Liquids Ionic Liquids in the Manufacture of 5–Hydroxymethylfurfural from Saccharides. An Example of the Conversion of Renewable Resources to Platform Chemicals Cellulose Dissolution and Processing with Ionic Liquids Green Separation Processes with Ionic Liquids Applications of Ionic Liquids in Electrolyte Systems Ionic Liquids as Lubricants New Working Pairs for Absorption Chillers Part IV: Ionic Liquids and the Environment Design of Inherently Safer Ionic Liquids: Toxicology and Biodegradation Eco–efficiency Analysis of an Industrially Implemented Ionic Liquid–based Process – the BASF BASIL Process Perspectives of Ionic Liquids as Environmentally Benign Substitutes for Molecular Solevents GREEN PROCESSES Volume 7: 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 Volume 8: 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 Volume 9: 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
- ISBN: 978-3-527-33710-1
- Editorial: Wiley VCH
- Encuadernacion: Cartoné
- Páginas: 3820
- Fecha Publicación: 08/08/2013
- Nº Volúmenes: 1
- Idioma: Inglés