Handbook of Ionic Liquids : Fundamentals, Applications and Sustainability
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| Autore: |
Rajkhowa Sanchayita
|
| Titolo: |
Handbook of Ionic Liquids : Fundamentals, Applications and Sustainability
|
| Pubblicazione: | Newark : , : John Wiley & Sons, Incorporated, , 2024 |
| ©2024 | |
| Edizione: | 1st ed. |
| Descrizione fisica: | 1 online resource (520 pages) |
| Disciplina: | 546.34 |
| Altri autori: |
SinghPardeep
SenAnik
SarmaJyotirmoy
|
| Nota di contenuto: | Cover -- Title Page -- Copyright -- Contents -- Preface -- Chapter 1 History and Development of Ionic Liquids -- 1.1 Introduction -- 1.2 Constituents of ILs -- 1.3 The Brief History -- 1.4 Ionic Liquid‐Like Systems -- 1.5 The Generation of ILs -- 1.5.1 First‐Generation ILs -- 1.5.2 Second‐Generation ILs -- 1.5.3 Third‐Generation ILs -- 1.6 Structural Development of ILs -- 1.6.1 Task‐Specific ILs (TSILs) -- 1.6.2 Chiral ILs -- 1.6.3 Switchable Polarity Solvent ILs -- 1.6.4 Bio‐ILs -- 1.6.5 Poly‐ILs -- 1.6.6 Energetic ILs -- 1.6.7 Metallic ILs -- 1.6.8 PILs -- 1.6.9 Acidic ILs -- 1.6.10 Basic ILs -- 1.6.11 Neutral ILs -- 1.6.12 Supported ILs -- 1.6.13 Magnetic ILs -- 1.7 Scope of ILs -- 1.8 Commercialization of ILs -- 1.9 Conclusions -- Acknowledgments -- References -- Chapter 2 Growth of Ionic Liquids and their Applications -- 2.1 Introduction -- 2.1.1 Cations -- 2.1.2 Anions -- 2.2 Growth of Ionic Liquids -- 2.2.1 Quaternization -- 2.2.2 Anion Exchange -- 2.2.3 Acid-Base Neutralization -- 2.2.4 Direct Combination -- 2.2.5 Microwave‐Assisted Synthesis -- 2.2.6 Ultrasound‐Assisted Synthesis -- 2.3 Applications of Ionic Liquids -- 2.3.1 Electrochemistry -- 2.3.1.1 Electrodeposition -- 2.3.1.2 Electrosynthesis -- 2.3.1.3 Electrocatalysis -- 2.3.2 Solvents and Catalysis -- 2.3.2.1 Ionic Liquids as Solvents for Organic Synthesis -- 2.3.2.2 Ionic Liquids as Solvents for Inorganic Synthesis -- 2.3.2.3 Ionic Liquids as Catalysts for Organic Reactions -- 2.3.3 Separation -- 2.3.4 Heat Transport and Storage -- 2.3.5 Analytics -- 2.3.6 Engineering -- 2.3.7 Performance Additives -- 2.3.8 Biotechnology -- 2.4 Conclusion and Future Prospects -- References -- Chapter 3 Study of Physicochemical Properties of Ionic Liquids -- 3.1 Introduction -- 3.2 Physicochemical Properties of Ionic Liquids -- 3.2.1 Density -- 3.2.2 Melting Point. |
| 3.2.3 Thermal Stability and Decomposition -- 3.2.4 Conductivity -- 3.2.5 Solubility -- 3.2.6 Surface Tension -- 3.2.7 Viscosity -- 3.2.8 Polarity -- 3.2.9 Diffusion -- 3.2.10 Vapor Pressure -- 3.2.11 Miscibility -- 3.3 Conclusion and Perspectives -- Acknowledgments -- References -- Chapter 4 Ionic Liquids as Green Solvents: Are Ionic Liquids Nontoxic and Biodegradable? -- 4.1 Introduction -- 4.2 Toxicity and Biodegradability of Ionic Liquids -- 4.2.1 Toxicological Effects and Toxicity Mechanisms of ILs -- 4.2.2 Scope of Biodegradable and Nontoxic ILs -- 4.3 Applications of Ionic Liquids as Green Solvents -- 4.3.1 Ionic Liquids as Green Solvents in Biomass Utilization and Extraction -- 4.3.2 Ionic Liquids as Green Solvents in Energy Applications -- 4.3.3 Ionic Liquids as Green Solvents in Biomedical Applications -- 4.4 IoNanofluids -- 4.4.1 Properties of INFs -- 4.4.2 Applications of INFs -- 4.4.3 Are IoNanofluids Nontoxic and Biodegradable? -- 4.5 Conclusion -- References -- Chapter 5 Promising Uses of Ionic Liquids on Carbon Carbon and Carbon Nitrogen Bond Formations -- 5.1 Introduction -- 5.2 Carbon Carbon Bond Formation Reactions -- 5.2.1 C C Cross‐Coupling Reactions -- 5.2.1.1 Heck Coupling -- 5.2.1.2 Suzuki Coupling -- 5.2.1.3 Sonogashira Coupling -- 5.2.1.4 Stille Coupling -- 5.2.1.5 Hiyama Coupling -- 5.2.2 Aldol Condensation -- 5.2.3 Claisen-Schmidt Condensation Reaction -- 5.2.4 Friedel-Crafts Alkylation -- 5.2.5 Diel-Alder Reaction -- 5.2.6 Henry Reactions -- 5.2.7 Other C C Bond Formation Reaction -- 5.3 Carbon Nitrogen Bond Formation Reaction -- 5.3.1 Biginelli Reaction -- 5.3.2 N‐Allylation Reactions -- 5.3.3 Mannich Reaction -- 5.3.4 Other C N Bond Formation Reactions -- 5.4 Conclusion -- References -- Chapter 6 Ionic Liquids in Separation Techniques -- 6.1 Introduction -- 6.2 General Characteristics of ILs. | |
| 6.3 The Use of ILs in Separation Technology -- 6.3.1 IL‐Based Solid-Liquid Extractions -- 6.3.2 Simple SLEs -- 6.3.3 Microwave‐Assisted Extractions -- 6.3.4 Ultrasound‐Assisted Extractions -- 6.3.5 Liquid-Liquid Extraction -- 6.3.6 ILs as Mobile Phase Additives in Liquid Chromatography -- 6.3.7 ILs Used as Surface‐Bonded Stationary Phases -- 6.4 Conclusions and Future Perspectives -- References -- Chapter 7 Polymers and Ionic Liquids -- 7.1 Introduction -- 7.2 Properties of ILs -- 7.3 Synthesis of PILs -- 7.4 Types and Application of Common PILs -- 7.5 Conclusion -- References -- Chapter 8 Effect of Ionic Liquids on Electrochemical Biosensors and Other Bioelectrochemical Devices -- 8.1 Introduction -- 8.2 The Importance of Ionic Liquids in Electrochemistry -- 8.2.1 Larger Electrochemical Window -- 8.2.2 Ionic Conductivity -- 8.2.3 Hydrophobicity -- 8.2.4 Viscosity -- 8.2.5 Catalytic Performance -- 8.3 Fabrication of IL‐Based Sensing Layers -- 8.3.1 Direct Mixing -- 8.3.2 Physical Adsorption -- 8.3.3 Casting and Rubbing -- 8.3.4 Electrodeposition -- 8.3.5 Sol-Gel Encapsulation -- 8.3.6 Layer‐by‐Layer (LbL) Method -- 8.3.7 Sandwich‐Type Immunoassay -- 8.4 IL‐Based Electrochemical Biosensors -- 8.4.1 Application of RTILs in Construction of Electrochemical Biosensors -- 8.4.1.1 CNMs‐ILs‐Based Electrochemical Biosensor as Cancer Biomarker -- 8.4.1.2 CNMs‐ILs‐Based Electrochemical Biosensor for Cardiac Diseases -- 8.4.1.3 CNMs‐ILs‐Based Electrochemical Biosensor for Immunoglobulins -- 8.4.1.4 CNMs‐ILs‐Based Electrochemical Biosensor for Neurotransmitters -- 8.4.1.5 CNMs‐ILs‐Based Electrochemical Glucose Biosensors -- 8.5 Application of Ionic Liquids in Bioelectrochemical Devices -- 8.6 Conclusions and Future Prospects -- References -- Chapter 9 Nanopharmaceuticals With Ionic Liquids: A Novel Approach -- 9.1 Introduction. | |
| 9.2 Applications of Ionic Liquids in Various Fields -- 9.3 Nanotechnology and Ionic Liquids -- 9.4 Use of Ionic Liquids in Nanocarrier Development (Reported Work) -- 9.5 Ionic Liquid‐Assisted Metal Nanoparticles -- 9.6 Conclusion -- References -- Chapter 10 Anticancer Activity of Ionic Liquids -- 10.1 Introduction -- 10.2 Classification of Ionic Liquids -- 10.3 Toxicity of Ionic Liquids -- 10.4 Anticancer Potential of Ionic Liquids -- 10.5 Conclusions and Future Scope -- References -- Chapter 11 Importance of Ionic Liquids in Plant Defense: A Novel Approach -- 11.1 Introduction -- 11.2 Generation of ILs and Their Application -- 11.3 Role of ILs in Plant Defense Mechanisms -- 11.3.1 ILs as Antibacterial Agents -- 11.3.2 ILs as Antifungal Agents -- 11.3.3 ILs as an Herbicide and Plant Growth Promoters -- 11.3.4 Effects of ILs as Deterrents -- 11.3.5 Application of ILs as Bioactive Formulations -- 11.3.6 Role of ILs in SAR Induction Mechanism -- 11.4 IL Products in Future Management of Agri Industries: An Innovative Approach -- 11.5 Conclusions -- References -- Chapter 12 Theoretical Description of Ionic Liquids -- 12.1 Introduction -- 12.2 Ionic Liquid Dynamics -- 12.2.1 Self‐Diffusion -- 12.2.2 Viscosity -- 12.3 Theoretical Advances in Force Fields and Electronic Structures -- 12.4 Mixtures in Ionic Liquids -- 12.4.1 Ionic Liquids and Interfaces -- 12.4.2 Ionic Liquids and Water -- 12.5 Applications of Ionic Liquids in Chemical Processes -- 12.5.1 Preamble -- 12.5.2 Separation and Purification -- 12.5.3 Reaction Media in Chemical and Biochemical Catalysis -- 12.6 Future Developments -- 12.7 Conclusion -- References -- Chapter 13 Theoretical Understanding of Ionic Liquid Advancements in the Field of Medicine -- 13.1 Introduction -- 13.2 A Brief History of Ionic Liquids and Deep Eutectic Solvents -- 13.3 Biomedical Applications. | |
| 13.3.1 Solubilization of Drugs -- 13.3.2 Protein Stabilization -- 13.4 Summary and Future Aspects -- 13.4.1 Developing a Microscopic Understanding to Enable Task‐Specific Design -- References -- Chapter 14 Recent Developments in Ionic Liquid Research from Environmental Perspectives -- 14.1 Introduction -- 14.2 Applications of Ionic Liquids -- 14.2.1 Ionic Liquids as Solvents and Catalysts -- 14.2.2 Ionic Liquids in Analytical Chemistry -- 14.2.3 Ionic Liquids in Electrochemical Applications -- 14.2.3.1 In Electrodeposition -- 14.2.3.2 Energy Management -- 14.2.3.3 Bioscience -- 14.2.3.4 Biomechanics -- 14.2.4 Ionic Liquids in Industrial Applications -- 14.2.5 Ionic Liquid as Lubricants -- 14.2.6 Ionic Liquids as a Corrosion Resistant Material -- 14.2.7 Ionic Liquids as Additives in Drilling Fluid -- 14.2.8 Ionic Liquids as Absorbents in Gas Capturing -- 14.2.9 Ionic Liquid Crystals -- 14.2.10 Ionic Liquids in Biomedical Applications -- 14.3 Limitations of Ionic Liquids -- 14.4 Conclusion -- References -- Chapter 15 Ionic Liquids for Sustainable Biomass Conversion in Biorefinery -- 15.1 Introduction -- 15.2 Biomass as a Source of Organic Compounds and Fuels -- 15.3 Biomass Conversion Process -- 15.3.1 Thermochemical Process -- 15.3.2 Lignin Extraction Processes -- 15.3.3 Enzymatic Processes -- 15.4 Value‐Added Organic Compounds from Biomass in Ionic Liquids -- 15.5 Production of Biodiesel with Ionic Liquids -- 15.6 Toxicity and Ecotoxicity of ILs for Biorefinery -- 15.6.1 Toxicity of ILs Used in Biorefinery -- 15.6.2 Biodegradation of ILs Used in Biorefinery -- 15.6.3 Conclusion Regarding Toxicity and Biodegradation of ILs -- 15.7 Conclusions -- References -- Chapter 16 Ionic Liquids for Atmospheric CO2 Capture: A Techno‐Economic Assessment -- 16.1 Introduction -- 16.2 Different Processes of CO2 Capture -- 16.2.1 Membrane Separation. | |
| 16.2.2 Cryogenic Separation. | |
| Titolo autorizzato: | Handbook of Ionic Liquids |
| ISBN: | 3-527-83952-6 |
| 3-527-83950-X | |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910830936503321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |