Biphasic chemistry and the solvent case / Jean-Philippe Goddard, Max Malacria, Cyril Ollivier.

Contributor(s): Goddard, Jean-Philippe [editor.] | Malacria, Max [editor.] | Ollivier, Cyril [editor.]
Language: English Series: Eco-compatibility of organic synthesis set, v. 3Publisher: Hoboken : ISTE Ltd / John Wiley and Sons Inc, 2020Description: 1 online resource (178 pages)Content type: text Media type: computer Carrier type: online resourceISBN: 9781786305091 ; 9781119695042; 9781119695080Subject(s): Solid state ChemistryGenre/Form: Electronic booksDDC classification: 541.0421 Online resources: Full text available at Wiley Online Library Click here to view
Contents:
Chapter 1. Solid-phase Supported Chemistry 1Geraldine GOUHIER 1.1. Introduction 1 1.2. Principle of solid-phase chemistry 2 1.3. Advantages 4 1.4. Safety and environment 4 1.5. Disadvantages and limitations 5 1.6. Evolution 6 1.7. Supports: linear skeletons 6 1.8. Three-dimensional resins 7 1.8.1. Macroporous resins 7 1.8.2. Gel resins 8 1.9. Characteristics of gel supports 10 1.9.1. Functionalization rate 10 1.9.2. Swelling properties 10 1.9.3. Size of the beads 12 1.9.4. Influence of cross-linking on swelling 12 1.9.5. Diffusion effect 13 1.9.6. Influence of cross-linking on diffusion 13 1.9.7. Influence of steric bulk 14 1.9.8. Influence of agitation 14 1.9.9. Proximity and pseudodilution effects 14 1.9.10. Proximity effect 15 1.9.11. Pseudodilution effect 15 1.9.12. Availability and costs 16 1.10. Functionalization of the solid support 17 1.10.1. Spacer arms 17 1.10.2. Linkers 18 1.10.3. Influence of functionalization 19 1.11. Analytical methods and reaction monitoring 20 1.11.1. Centesimal analyses 20 1.11.2. Colorimetric dosages 22 1.11.3. Indirect analyses 23 1.11.4. Infrared spectroscopy 23 1.11.5. Nuclear magnetic resonance spectrometry 24 1.11.6. Mass spectrometry 29 1.12. Solid-phase syntheses 29 1.12.1. Supported reagents 29 1.12.2. Supported chiral catalysts 32 1.12.3. Scavengers 34 1.13. Innovative applications and processes 35 1.13.1. Examples 35 1.13.2. Parallel syntheses on a solid support 37 1.14. Activation on solid phase 40 1.14.1. Microwave reactions 40 1.14.2. Reactions under high pressure 42 1.14.3. Reactions under ultrasound 42 1.14.4. Supported electrochemical reactions 43 1.14.5. Reactions in ionic liquid 43 1.15. Industrial applications and prospects 45 1.16. Conclusion 45 1.17. References 45 Chapter 2. Fluorous Tags and Phases for Synthesis and Catalysis 57Jean-Marc VINCENT 2.1. Introduction 57 2.2. Structures and properties of fluorous tags and phases 58 2.2.1. History of fluorous chemistry 58 2.2.2. Fluorous tags 59 2.2.3. Fluorous solvents 60 2.2.4. Solid fluorous phases 62 2.3. Separation/recycling methodologies using fluorous tags and phases 64 2.3.1. Application for catalysis 64 2.3.2. Application for synthesis 75 2.4. Conclusion 90 2.5. References 90 Chapter 3. Chemistry In and On Water 99Marie-Christine SCHERRMANN 3.1. Introduction 99 3.1.1. Presentation and history 99 3.1.2. Position in the context of green chemistry 100 3.2. General: origin of reactivity in and on water 100 3.2.1. Water structure and properties 100 3.2.2. Chemistry in water: the hydrophobic effect 102 3.2.3. Origin of reactivity on water 106 3.3. Limitations of the method 107 3.4. Reactivity in and on water 107 3.4.1. Pericyclic reactions 107 3.4.2. Addition reactions of carbonyl derivatives 121 3.4.3. Coupling reactions catalyzed by transition metals 127 3.4.4. Radical reactions 135 3.4.5. Oxidation and reduction reactions 136 3.5. Multistep syntheses 142 3.6. Industrial applications 143 3.7. Conclusion 144 3.8. References 145 Chapter 4. Solvent-free Chemistry 169Thomas-Xavier METRO, Xavier BANTREIL, Jean MARTINEZ and Frederic LAMATY 4.1. Introduction 169 4.2. General information on solvent-free synthesis: why use a solvent? 170 4.3. Working without solvents 170 4.4. Limitations of the technique 171 4.5. In practice: methods and reactivity 172 4.5.1. Methods and equipment. 172 4.5.2. Examples 172 4.5.3. Scaling up: industrial applications 173 4.6. Mortar and pestle 176 4.6.1. Methods and equipment 176 4.6.2. Examples 176 4.6.3. Scaling up: industrial applications 177 4.7. Ball-mills 178 4.7.1. Methods and equipment 178 4.7.2. Examples 180 4.7.3. Scaling up: industrial applications 185 4.8. Extruders 190 4.8.1. Methods and equipment 190 4.8.2. Examples 191 4.9. Microwave irradiation 192 4.9.1. Methods and equipment 192 4.9.2. Examples 194 4.9.3. Scaling up: industrial applications 196 4.10. Photochemistry 198 4.10.1. Methods and equipment 198 4.10.2. Examples 199 4.10.3. Scaling up: industrial applications 201 4.11. Comparison of techniques 204 4.12. Conclusion 206 4.13. References 206 List of Authors 217 Index 219
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Chapter 1. Solid-phase Supported Chemistry 1Geraldine GOUHIER 1.1. Introduction 1 1.2. Principle of solid-phase chemistry 2 1.3. Advantages 4 1.4. Safety and environment 4 1.5. Disadvantages and limitations 5 1.6. Evolution 6 1.7. Supports: linear skeletons 6 1.8. Three-dimensional resins 7 1.8.1. Macroporous resins 7 1.8.2. Gel resins 8 1.9. Characteristics of gel supports 10 1.9.1. Functionalization rate 10 1.9.2. Swelling properties 10 1.9.3. Size of the beads 12 1.9.4. Influence of cross-linking on swelling 12 1.9.5. Diffusion effect 13 1.9.6. Influence of cross-linking on diffusion 13 1.9.7. Influence of steric bulk 14 1.9.8. Influence of agitation 14 1.9.9. Proximity and pseudodilution effects 14 1.9.10. Proximity effect 15 1.9.11. Pseudodilution effect 15 1.9.12. Availability and costs 16 1.10. Functionalization of the solid support 17 1.10.1. Spacer arms 17 1.10.2. Linkers 18 1.10.3. Influence of functionalization 19 1.11. Analytical methods and reaction monitoring 20 1.11.1. Centesimal analyses 20 1.11.2. Colorimetric dosages 22 1.11.3. Indirect analyses 23 1.11.4. Infrared spectroscopy 23 1.11.5. Nuclear magnetic resonance spectrometry 24 1.11.6. Mass spectrometry 29 1.12. Solid-phase syntheses 29 1.12.1. Supported reagents 29 1.12.2. Supported chiral catalysts 32 1.12.3. Scavengers 34 1.13. Innovative applications and processes 35 1.13.1. Examples 35 1.13.2. Parallel syntheses on a solid support 37 1.14. Activation on solid phase 40 1.14.1. Microwave reactions 40 1.14.2. Reactions under high pressure 42 1.14.3. Reactions under ultrasound 42 1.14.4. Supported electrochemical reactions 43 1.14.5. Reactions in ionic liquid 43 1.15. Industrial applications and prospects 45 1.16. Conclusion 45 1.17. References 45 Chapter 2. Fluorous Tags and Phases for Synthesis and Catalysis 57Jean-Marc VINCENT 2.1. Introduction 57 2.2. Structures and properties of fluorous tags and phases 58 2.2.1. History of fluorous chemistry 58 2.2.2. Fluorous tags 59 2.2.3. Fluorous solvents 60 2.2.4. Solid fluorous phases 62 2.3. Separation/recycling methodologies using fluorous tags and phases 64 2.3.1. Application for catalysis 64 2.3.2. Application for synthesis 75 2.4. Conclusion 90 2.5. References 90 Chapter 3. Chemistry In and On Water 99Marie-Christine SCHERRMANN 3.1. Introduction 99 3.1.1. Presentation and history 99 3.1.2. Position in the context of green chemistry 100 3.2. General: origin of reactivity in and on water 100 3.2.1. Water structure and properties 100 3.2.2. Chemistry in water: the hydrophobic effect 102 3.2.3. Origin of reactivity on water 106 3.3. Limitations of the method 107 3.4. Reactivity in and on water 107 3.4.1. Pericyclic reactions 107 3.4.2. Addition reactions of carbonyl derivatives 121 3.4.3. Coupling reactions catalyzed by transition metals 127 3.4.4. Radical reactions 135 3.4.5. Oxidation and reduction reactions 136 3.5. Multistep syntheses 142 3.6. Industrial applications 143 3.7. Conclusion 144 3.8. References 145 Chapter 4. Solvent-free Chemistry 169Thomas-Xavier METRO, Xavier BANTREIL, Jean MARTINEZ and Frederic LAMATY 4.1. Introduction 169 4.2. General information on solvent-free synthesis: why use a solvent? 170 4.3. Working without solvents 170 4.4. Limitations of the technique 171 4.5. In practice: methods and reactivity 172 4.5.1. Methods and equipment. 172 4.5.2. Examples 172 4.5.3. Scaling up: industrial applications 173 4.6. Mortar and pestle 176 4.6.1. Methods and equipment 176 4.6.2. Examples 176 4.6.3. Scaling up: industrial applications 177 4.7. Ball-mills 178 4.7.1. Methods and equipment 178 4.7.2. Examples 180 4.7.3. Scaling up: industrial applications 185 4.8. Extruders 190 4.8.1. Methods and equipment 190 4.8.2. Examples 191 4.9. Microwave irradiation 192 4.9.1. Methods and equipment 192 4.9.2. Examples 194 4.9.3. Scaling up: industrial applications 196 4.10. Photochemistry 198 4.10.1. Methods and equipment 198 4.10.2. Examples 199 4.10.3. Scaling up: industrial applications 201 4.11. Comparison of techniques 204 4.12. Conclusion 206 4.13. References 206 List of Authors 217 Index 219

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