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Advanced Polymer Simulation and Processing . Volume I / / Célio Pinto Fernandes, [and three others], editors
Advanced Polymer Simulation and Processing . Volume I / / Célio Pinto Fernandes, [and three others], editors
Pubbl/distr/stampa Basel : , : MDPI - Multidisciplinary Digital Publishing Institute, , 2023
Descrizione fisica 1 online resource (488 pages)
Disciplina 547.28
Soggetto topico Polymerization
Emulsion polymerization
ISBN 3-0365-6665-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910683385203321
Basel : , : MDPI - Multidisciplinary Digital Publishing Institute, , 2023
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Chemistry and technology of emulsion polymerisation [[electronic resource] /] / edited by A. Van Herk
Chemistry and technology of emulsion polymerisation [[electronic resource] /] / edited by A. Van Herk
Autore Herk Alex van
Pubbl/distr/stampa Oxford ; ; Ames, Iowa, : Blackwell Pub., 2005
Descrizione fisica 1 online resource (328 p.)
Disciplina 668.9
Altri autori (Persone) HerkAlex van
Soggetto topico Emulsion polymerization
Latex - Industrial applications
ISBN 1-280-74789-7
9786610747894
0-470-98846-0
1-4051-7178-2
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Historic overview -- Introduction to radical (co)polymerisation -- Emulsion polymerisation -- Emulsion copolymerisation : process strategies, and morphology -- Living radical polymerisation in emulsion and miniemulsion -- Colloidal aspects of emulsion polymerisation -- Analysis of polymer molecules : reaction monitoring and control -- Particle analysis : particle size, particle shape and structure and surface characterisation -- Large-volume applications of latex polymers -- Specialty applications of latex polymers.
Record Nr. UNISA-996205514503316
Herk Alex van  
Oxford ; ; Ames, Iowa, : Blackwell Pub., 2005
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
Chemistry and technology of emulsion polymerisation [[electronic resource] /] / editor, A.M. van Herk
Chemistry and technology of emulsion polymerisation [[electronic resource] /] / editor, A.M. van Herk
Edizione [2nd ed.]
Pubbl/distr/stampa Chichester, West Sussex, U.K., : John Wiley & Sons Inc., 2013
Descrizione fisica 1 online resource (376 p.)
Disciplina 668.9/2
Altri autori (Persone) HerkAlex van
Soggetto topico Emulsion polymerization
Latex - Industrial applications
ISBN 1-118-63852-2
1-118-63837-9
1-118-63836-0
Classificazione TEC009010
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Machine generated contents note: List of Contributors xi Abbreviations xiii List of Frequently Used Symbols xvii Introduction to the Second Edition xix Introduction to the First Edition xxi 1 Historic Overview 1 Finn Knut Hansen 1.1 The Early Stages 1 1.2 The Second Half of the Twentieth Century 9 1.2.1 Product Development 9 1.2.2 Kinetic Theory 11 1.2.3 Emulsion Polymerisation in Monomer Droplets 19 1.2.4 Industrial Process Control and Simulation 21 2 Introduction to Radical (Co)Polymerisation 23 A.M. van Herk 2.1 Mechanism of Free Radical Polymerisation 23 2.2 Rate of Polymerisation and Development of Molecular Mass Distribution 25 2.2.1 Rate of Polymerisation 25 2.2.2 Kinetic Chain Length 26 2.2.3 Chain Length Distribution 27 2.2.4 Temperature and Conversion Effects 30 2.3 Radical Transfer Reactions 31 2.3.1 Radical Transfer Reactions to Low Molecular Mass Species 31 2.3.2 Radical Transfer Reactions to Polymer 32 2.4 Radical Copolymerisation 34 2.4.1 Derivation of the Copolymerisation Equation 34 2.4.2 Types of Copolymers 37 2.4.3 Polymerisation Rates in Copolymerisations 39 2.5 Controlled Radical Polymerisation 41 3 Emulsion Polymerisation 43 A.M. van Herk and R.G. Gilbert 3.1 Introduction 43 3.2 General Aspects of Emulsion Polymerisation 44 3.3 Basic Principles of Emulsion Polymerisation 46 3.4 Particle Nucleation 47 3.5 Particle Growth 51 3.5.1 The Zero-One and Pseudo-Bulk Dichotomy 52 3.5.2 Zero-One Kinetics 53 3.5.3 Pseudo-Bulk Kinetics 55 3.5.4 Systems between Zero-One and Pseudo-Bulk 57 3.6 Ingredients in Recipes 57 3.6.1 Monomers 58 3.6.2 Initiators 58 3.6.3 Surfactants 58 3.6.4 Other Ingredients 59 3.7 Emulsion Copolymerisation 59 3.7.1 Monomer Partitioning in Emulsion Polymerisation 59 3.7.2 Composition Drift in Emulsion Co- and Terpolymerisation 63 3.7.3 Process Strategies in Emulsion Copolymerisation 64 3.8 Particle Morphologies 66 3.8.1 Core-Shell Morphologies 68 4 Emulsion Copolymerisation, Process Strategies 75 Jose Ramon Leiza and Jan Meuldijk 4.1 Introduction 75 4.2 Monomer Partitioning 79 4.2.1 Slightly and Partially Water Miscible Monomers 79 4.2.2 Consequences of Monomer Partitioning for the Copolymer Composition 84 4.3 Process Strategies 86 4.3.1 Batch Operation 86 4.3.2 Semi-Batch Operation 89 4.3.3 Control Opportunities 92 5 Living Radical Polymerisation in Emulsion and Miniemulsion 105 Bernadette Charleux, Michael J. Monteiro, and Hans Heuts 5.1 Introduction 105 5.2 Living Radical Polymerisation 106 5.2.1 General/Features of a Controlled/Living Radical Polymerisation 106 5.2.2 Reversible Termination 108 5.2.3 Reversible Chain Transfer 116 5.3 Nitroxide-Mediated Polymerisation in Emulsion and Miniemulsion 119 5.3.1 Introduction 119 5.3.2 Control of Molar Mass and Molar Mass Distribution 120 5.3.3 Synthesis of Block and Random or Gradient Copolymers via (Mini)Emulsion Polymerisation 125 5.3.4 Surfactant-Free Emulsion Polymerisation Using the Polymerisation-Induced Self-Assembly Technique 126 5.4 ATRP in Emulsion and Miniemulsion 126 5.4.1 Introduction 126 5.4.2 Direct ATRP 127 5.4.3 Reverse ATRP 130 5.4.4 Next Generation ATRP Techniques: SRNI and AGET 132 5.4.5 Some Concluding Remarks on ATRP in Emulsion 135 5.5 Reversible Chain Transfer in Emulsion and Miniemulsion 136 5.5.1 Low Cex Reversible Chain Transfer Agents 136 5.5.2 High Cex Reversible Chain Transfer Agents 137 5.6 Conclusion 143 6 Particle Morphology 145 Yuri Reyes Mercado, Elena Akhmastkaya, Jose Ramon Leiza, and Jose M. Asua 6.1 Introduction 145 6.2 Synthesis of Structured Polymer Particles 146 6.2.1 Emulsion Polymerisation 146 6.2.2 Miniemulsion Polymerisation 147 6.2.3 Physical Methods 148 6.3 Two-Phase Polymer-Polymer Structured Particles 148 6.3.1 Effect of Grafting 152 6.4 Two-Phase Polymer-Inorganic Particles 153 6.5 Multiphase Systems 156 6.6 Effect of Particle Morphology on Film Morphology 162 6.6.1 Modelling Film Morphology 165 Acknowledgements 165 7 Colloidal Aspects of Emulsion Polymerisation 167 Brian Vincent 7.1 Introduction 167 7.2 The Stabilisation of Colloidal Particles against Aggregation 168 7.3 Pair-Potentials in Colloidal Dispersions 170 7.3.1 Core-Core Interactions 170 7.3.2 Structural Interactions: (i) Those Associated with the Solvent 171 7.3.3 Structural Interactions: (ii) Electrical Double Layer Overlap 173 7.3.4 Structural Interactions: (iii) Adsorbed Polymer Layer Overlap 175 7.4 Weak Flocculation and Phase Separation in Particulate Dispersions 179 7.5 Aggregate Structure and Strength 184 8 Analysis of Polymer Molecules including Reaction Monitoring and Control 187 Peter Schoenmakers 8.1 Sampling and Sample Handling 188 8.1.1 Sampling 188 8.1.2 Sample Preparation 188 8.2 Monomer Conversion 189 8.3 Molar Mass 190 8.3.1 Molar-Mass Distributions 191 8.4 Chemical Composition 197 8.4.1 Average Chemical Composition 197 8.4.2 Molar-Mass Dependent Chemical Composition 199 8.4.3 Chemical-Composition Distributions 202 8.4.4 Two-Dimensional Distributions 207 8.5 Detailed Molecular Characterization 210 8.5.1 Chain Regularity 210 8.5.2 Branching 212 9 Particle Analysis 213 Ola Karlsson and Brigitte E.H. Schade 9.1 Introduction 213 9.2 Particle Size and Particle Size Distribution 214 9.2.1 Introduction 214 9.2.2 Average Particle Diameter 216 9.2.3 Particle Size Distribution 216 9.3 Sampling 216 9.4 Particle Size Measurement Methods 217 9.4.1 Ensemble Techniques 218 9.4.2 Particle Separation Methods 224 9.5 Comparison of Methods 233 9.5.1 Choice of a Method 235 9.6 Particle Shape, Structure and Surface Characterisation 236 9.6.1 Introduction to Particle Shape, Structure and Surface Characterisation 236 9.6.2 Classification of the Samples 238 9.6.3 General Considerations - Sample Preparation If the Latex is Film Forming 238 9.7 Discussion of the Available Techniques 239 9.7.1 Optical Microscopy (OM) 239 9.7.2 Atomic Force Microscopy (AFM) 240 9.7.3 Electron Microscopy 243 9.7.4 Indirect Analysis of Particle Morphology 248 9.7.5 Surface Characterisation 249 9.7.6 Cleaning of Latexes 250 9.7.7 Analyses of Particle Charge 250 9.7.8 Additional Techniques Used for Latex Particle Surface Characterisation 250 9.7.9 Zeta Potential 251 10 Large Volume Applications of Latex Polymers 253 Dieter Urban, Bernhard Schuler, and J℗·urgen Schmidt-Th℗·ummes 10.1 Market and Manufacturing Process 253 10.1.1 History and Market Today 253 10.1.2 Manufacturing Process 254 10.2 Paper and Paperboard 254 10.2.1 The Paper Manufacturing Process 254 10.2.2 Surface Sizing 255 10.2.3 Paper Coating 256 10.3 Paints and Coatings 262 10.3.1 Technology Trends 263 10.3.2 Raw Materials for Water-Borne Coating Formulations 264 10.3.3 Decorative Coatings 269 10.3.4 Protective and Industrial Coatings 271 10.4 Adhesives 271 10.4.1 Design of Emulsion Polymer Adhesives 272 10.4.2 Formulation Additives 276 10.4.3 Adhesive Applications 277 10.4.4 Adhesive Test Methods 279 10.5 Carpet Backing 280 10.5.1 Carpet Backing Binders 281 10.5.2 Carpet Backing Compounds 281 10.5.3 Application Requirements 282 Acknowledgements 282 11 Specialty Applications of Latex Polymers 283 Christian Pichot, Thierry Delair, and Haruma Kawaguchi 11.1 Introduction 283 11.2 Specific Requirements for the Design of Specialty Latex Particles 284 11.2.1 Nature of the Polymer 284 11.2.2 Particle Size and Size Distribution 285 11.2.3 Particle Morphology 285 11.2.4 Nature of the Interface 286 11.2.5 Surface Potential 287 11.2.6 Colloidal Stability 287 11.2.7 Functionality 287 11.3 Preparation Methods of Latex Particles for Specialty Applications 288 11.3.1 Radical-Initiated Polymerisation in Heterogeneous Media 288 11.3.2 Modification of Particles and Related Methods 290 11.3.3 Formulation of Colloidal Dispersions from Pre-Formed Polymers 293 11.4 Applications 294 11.4.1 Non-Biomedical Applications 294 11.4.2 Biological, Biomedical and Pharmaceutical Applications 299 11.5 Conclusions 304 References 307 Index 337.
Record Nr. UNINA-9910141574203321
Chichester, West Sussex, U.K., : John Wiley & Sons Inc., 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Chemistry and technology of emulsion polymerisation / / editor, A.M. van Herk
Chemistry and technology of emulsion polymerisation / / editor, A.M. van Herk
Edizione [2nd ed.]
Pubbl/distr/stampa Chichester, West Sussex, U.K., : John Wiley & Sons Inc., 2013
Descrizione fisica 1 online resource (376 p.)
Disciplina 668.9/2
Altri autori (Persone) HerkAlex van
Soggetto topico Emulsion polymerization
Latex - Industrial applications
ISBN 1-118-63852-2
1-118-63837-9
1-118-63836-0
Classificazione TEC009010
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Machine generated contents note: List of Contributors xi Abbreviations xiii List of Frequently Used Symbols xvii Introduction to the Second Edition xix Introduction to the First Edition xxi 1 Historic Overview 1 Finn Knut Hansen 1.1 The Early Stages 1 1.2 The Second Half of the Twentieth Century 9 1.2.1 Product Development 9 1.2.2 Kinetic Theory 11 1.2.3 Emulsion Polymerisation in Monomer Droplets 19 1.2.4 Industrial Process Control and Simulation 21 2 Introduction to Radical (Co)Polymerisation 23 A.M. van Herk 2.1 Mechanism of Free Radical Polymerisation 23 2.2 Rate of Polymerisation and Development of Molecular Mass Distribution 25 2.2.1 Rate of Polymerisation 25 2.2.2 Kinetic Chain Length 26 2.2.3 Chain Length Distribution 27 2.2.4 Temperature and Conversion Effects 30 2.3 Radical Transfer Reactions 31 2.3.1 Radical Transfer Reactions to Low Molecular Mass Species 31 2.3.2 Radical Transfer Reactions to Polymer 32 2.4 Radical Copolymerisation 34 2.4.1 Derivation of the Copolymerisation Equation 34 2.4.2 Types of Copolymers 37 2.4.3 Polymerisation Rates in Copolymerisations 39 2.5 Controlled Radical Polymerisation 41 3 Emulsion Polymerisation 43 A.M. van Herk and R.G. Gilbert 3.1 Introduction 43 3.2 General Aspects of Emulsion Polymerisation 44 3.3 Basic Principles of Emulsion Polymerisation 46 3.4 Particle Nucleation 47 3.5 Particle Growth 51 3.5.1 The Zero-One and Pseudo-Bulk Dichotomy 52 3.5.2 Zero-One Kinetics 53 3.5.3 Pseudo-Bulk Kinetics 55 3.5.4 Systems between Zero-One and Pseudo-Bulk 57 3.6 Ingredients in Recipes 57 3.6.1 Monomers 58 3.6.2 Initiators 58 3.6.3 Surfactants 58 3.6.4 Other Ingredients 59 3.7 Emulsion Copolymerisation 59 3.7.1 Monomer Partitioning in Emulsion Polymerisation 59 3.7.2 Composition Drift in Emulsion Co- and Terpolymerisation 63 3.7.3 Process Strategies in Emulsion Copolymerisation 64 3.8 Particle Morphologies 66 3.8.1 Core-Shell Morphologies 68 4 Emulsion Copolymerisation, Process Strategies 75 Jose Ramon Leiza and Jan Meuldijk 4.1 Introduction 75 4.2 Monomer Partitioning 79 4.2.1 Slightly and Partially Water Miscible Monomers 79 4.2.2 Consequences of Monomer Partitioning for the Copolymer Composition 84 4.3 Process Strategies 86 4.3.1 Batch Operation 86 4.3.2 Semi-Batch Operation 89 4.3.3 Control Opportunities 92 5 Living Radical Polymerisation in Emulsion and Miniemulsion 105 Bernadette Charleux, Michael J. Monteiro, and Hans Heuts 5.1 Introduction 105 5.2 Living Radical Polymerisation 106 5.2.1 General/Features of a Controlled/Living Radical Polymerisation 106 5.2.2 Reversible Termination 108 5.2.3 Reversible Chain Transfer 116 5.3 Nitroxide-Mediated Polymerisation in Emulsion and Miniemulsion 119 5.3.1 Introduction 119 5.3.2 Control of Molar Mass and Molar Mass Distribution 120 5.3.3 Synthesis of Block and Random or Gradient Copolymers via (Mini)Emulsion Polymerisation 125 5.3.4 Surfactant-Free Emulsion Polymerisation Using the Polymerisation-Induced Self-Assembly Technique 126 5.4 ATRP in Emulsion and Miniemulsion 126 5.4.1 Introduction 126 5.4.2 Direct ATRP 127 5.4.3 Reverse ATRP 130 5.4.4 Next Generation ATRP Techniques: SRNI and AGET 132 5.4.5 Some Concluding Remarks on ATRP in Emulsion 135 5.5 Reversible Chain Transfer in Emulsion and Miniemulsion 136 5.5.1 Low Cex Reversible Chain Transfer Agents 136 5.5.2 High Cex Reversible Chain Transfer Agents 137 5.6 Conclusion 143 6 Particle Morphology 145 Yuri Reyes Mercado, Elena Akhmastkaya, Jose Ramon Leiza, and Jose M. Asua 6.1 Introduction 145 6.2 Synthesis of Structured Polymer Particles 146 6.2.1 Emulsion Polymerisation 146 6.2.2 Miniemulsion Polymerisation 147 6.2.3 Physical Methods 148 6.3 Two-Phase Polymer-Polymer Structured Particles 148 6.3.1 Effect of Grafting 152 6.4 Two-Phase Polymer-Inorganic Particles 153 6.5 Multiphase Systems 156 6.6 Effect of Particle Morphology on Film Morphology 162 6.6.1 Modelling Film Morphology 165 Acknowledgements 165 7 Colloidal Aspects of Emulsion Polymerisation 167 Brian Vincent 7.1 Introduction 167 7.2 The Stabilisation of Colloidal Particles against Aggregation 168 7.3 Pair-Potentials in Colloidal Dispersions 170 7.3.1 Core-Core Interactions 170 7.3.2 Structural Interactions: (i) Those Associated with the Solvent 171 7.3.3 Structural Interactions: (ii) Electrical Double Layer Overlap 173 7.3.4 Structural Interactions: (iii) Adsorbed Polymer Layer Overlap 175 7.4 Weak Flocculation and Phase Separation in Particulate Dispersions 179 7.5 Aggregate Structure and Strength 184 8 Analysis of Polymer Molecules including Reaction Monitoring and Control 187 Peter Schoenmakers 8.1 Sampling and Sample Handling 188 8.1.1 Sampling 188 8.1.2 Sample Preparation 188 8.2 Monomer Conversion 189 8.3 Molar Mass 190 8.3.1 Molar-Mass Distributions 191 8.4 Chemical Composition 197 8.4.1 Average Chemical Composition 197 8.4.2 Molar-Mass Dependent Chemical Composition 199 8.4.3 Chemical-Composition Distributions 202 8.4.4 Two-Dimensional Distributions 207 8.5 Detailed Molecular Characterization 210 8.5.1 Chain Regularity 210 8.5.2 Branching 212 9 Particle Analysis 213 Ola Karlsson and Brigitte E.H. Schade 9.1 Introduction 213 9.2 Particle Size and Particle Size Distribution 214 9.2.1 Introduction 214 9.2.2 Average Particle Diameter 216 9.2.3 Particle Size Distribution 216 9.3 Sampling 216 9.4 Particle Size Measurement Methods 217 9.4.1 Ensemble Techniques 218 9.4.2 Particle Separation Methods 224 9.5 Comparison of Methods 233 9.5.1 Choice of a Method 235 9.6 Particle Shape, Structure and Surface Characterisation 236 9.6.1 Introduction to Particle Shape, Structure and Surface Characterisation 236 9.6.2 Classification of the Samples 238 9.6.3 General Considerations - Sample Preparation If the Latex is Film Forming 238 9.7 Discussion of the Available Techniques 239 9.7.1 Optical Microscopy (OM) 239 9.7.2 Atomic Force Microscopy (AFM) 240 9.7.3 Electron Microscopy 243 9.7.4 Indirect Analysis of Particle Morphology 248 9.7.5 Surface Characterisation 249 9.7.6 Cleaning of Latexes 250 9.7.7 Analyses of Particle Charge 250 9.7.8 Additional Techniques Used for Latex Particle Surface Characterisation 250 9.7.9 Zeta Potential 251 10 Large Volume Applications of Latex Polymers 253 Dieter Urban, Bernhard Schuler, and J℗·urgen Schmidt-Th℗·ummes 10.1 Market and Manufacturing Process 253 10.1.1 History and Market Today 253 10.1.2 Manufacturing Process 254 10.2 Paper and Paperboard 254 10.2.1 The Paper Manufacturing Process 254 10.2.2 Surface Sizing 255 10.2.3 Paper Coating 256 10.3 Paints and Coatings 262 10.3.1 Technology Trends 263 10.3.2 Raw Materials for Water-Borne Coating Formulations 264 10.3.3 Decorative Coatings 269 10.3.4 Protective and Industrial Coatings 271 10.4 Adhesives 271 10.4.1 Design of Emulsion Polymer Adhesives 272 10.4.2 Formulation Additives 276 10.4.3 Adhesive Applications 277 10.4.4 Adhesive Test Methods 279 10.5 Carpet Backing 280 10.5.1 Carpet Backing Binders 281 10.5.2 Carpet Backing Compounds 281 10.5.3 Application Requirements 282 Acknowledgements 282 11 Specialty Applications of Latex Polymers 283 Christian Pichot, Thierry Delair, and Haruma Kawaguchi 11.1 Introduction 283 11.2 Specific Requirements for the Design of Specialty Latex Particles 284 11.2.1 Nature of the Polymer 284 11.2.2 Particle Size and Size Distribution 285 11.2.3 Particle Morphology 285 11.2.4 Nature of the Interface 286 11.2.5 Surface Potential 287 11.2.6 Colloidal Stability 287 11.2.7 Functionality 287 11.3 Preparation Methods of Latex Particles for Specialty Applications 288 11.3.1 Radical-Initiated Polymerisation in Heterogeneous Media 288 11.3.2 Modification of Particles and Related Methods 290 11.3.3 Formulation of Colloidal Dispersions from Pre-Formed Polymers 293 11.4 Applications 294 11.4.1 Non-Biomedical Applications 294 11.4.2 Biological, Biomedical and Pharmaceutical Applications 299 11.5 Conclusions 304 References 307 Index 337.
Record Nr. UNINA-9910825867403321
Chichester, West Sussex, U.K., : John Wiley & Sons Inc., 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Microfluidic reactors for polymer particles [[electronic resource] /] / Eugenia Kumacheva and Piotr Garstecki
Microfluidic reactors for polymer particles [[electronic resource] /] / Eugenia Kumacheva and Piotr Garstecki
Autore Kumacheva Eugenia
Pubbl/distr/stampa Chichester, West Sussex ; ; [Hoboken, N.J.], : Wiley, 2011
Descrizione fisica 1 online resource (246 p.)
Disciplina 620.106
668.9
Altri autori (Persone) GarsteckiPiotr
Soggetto topico Emulsion polymerization
Microfluidic devices
Microreactors
ISBN 1-119-99028-9
1-283-37398-X
9786613373984
0-470-97923-2
0-470-97922-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Microfluidic Reactors for Polymer Particles; Contents; Preface; 1 Applications of Polymer Particles; References; 2 Methods for the Generation of Polymer Particles; 2.1 Conventional Methods Used for Producing Polymer Particles; 2.2 Microfluidic Generation of Polymer Particles; References; 3 Introduction to Microfluidics; 3.1 Microfluidics; 3.2 Droplet Microfluidics; References; 4 Physics of Microfluidic Emulsification; 4.1 Energy of the Interfaces Between Immiscible Fluids; 4.2 Surfactants; 4.3 Interfacial Tension; 4.4 Laplace Pressure; 4.5 Rayleigh-Plateau Instability
4.6 Wetting of a Solid Surface4.7 Analysis of Flow; 4.8 Flow in Networks of Microchannels; 4.9 Dimensional Groups; References; 5 Formation of Droplets in Microfluidic Systems; 5.1 Introduction; 5.1.1 Geometrical Confinement; 5.1.2 The Cost of Confinement; 5.2 Microfluidic Generators of Droplets and Bubbles; 5.3 T-Junction; 5.3.1 Parameters that Determine the Dynamics; 5.3.2 First Reports; 5.3.3 Mechanism of Operation of the T-Junction System; 5.3.4 Variations of the Geometry of the T-Junction; 5.3.5 Summary of the Mechanism of Breakup in the T-Junction
5.3.6 Maximum Throughput of a Single Junction5.4 Formation of Droplets and Bubbles in Microfluidic Flow- Focusing Devices; 5.4.1 First Reports and Observations; 5.4.2 Dynamics of Flow-Focusing Systems at Low Contrast of Viscosities; 5.4.2.1 Formation of Bubbles; 5.4.2.2 Formation of Droplets; 5.4.3 Flow Focusing: Formation of Viscous Droplets; 5.5 Practical Guidelines for the Use of Microfluidic Devices for Formation of Droplets; 5.5.1 Types of Fluids; 5.5.2 Surfactants; 5.5.3 Wetting; 5.5.4 Size of the Droplets; 5.5.5 Supplying the Liquids; 5.6 Designing Droplets
5.6.1 Control of the Interface of Homogeneous Droplets5.6.2 Heterogeneous Droplets; 5.6.3 Multiple Emulsions; 5.7 Conclusions; References; 6 High-Throughput Microfluidic Systems for Formation of Droplets; 6.1 Introduction; 6.2 Effects that Modify the Pressure Distribution; 6.3 Hydrodynamic Coupling; 6.4 Integrated Systems; 6.5 Parallel Formation of Droplets of Distinct Properties; 6.6 Conclusions; References; 7 Synthesis of Polymer Particles in Microfluidic Reactors; 7.1 Introduction; 7.2 Particles Synthesized by Free-Radical Polymerization; 7.2.1 Polymerization in Multi-Phase Flow
7.2.1.1 Emulsification of Polymerizable Liquids7.2.2 Synthesis in Single-Phase Flow; 7.3 Polymer Particles Synthesized by Polycondensation; 7.4 Combination of Free-Radical Polymerization and Polycondensation Reactions; 7.5 General Considerations on the Use of Other Polymerization Mechanisms; 7.6 Important Aspects of Microfluidic Polymerization of Polymer Particles; 7.6.1 Modes of Microfluidic Polymerization; 7.6.2 Achieving High Conversion in Microfluidic Polymerization; 7.6.3 In Situ Polymerization of Monomer Droplets; 7.7 Synthesis of Composite Particles; 7.7.1 Copolymer Particles
7.7.2 Polymer Particles Loaded with Low-Molecular Weight Organic Additives
Record Nr. UNINA-9910133454403321
Kumacheva Eugenia  
Chichester, West Sussex ; ; [Hoboken, N.J.], : Wiley, 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Microfluidic reactors for polymer particles [[electronic resource] /] / Eugenia Kumacheva and Piotr Garstecki
Microfluidic reactors for polymer particles [[electronic resource] /] / Eugenia Kumacheva and Piotr Garstecki
Autore Kumacheva Eugenia
Pubbl/distr/stampa Chichester, West Sussex ; ; [Hoboken, N.J.], : Wiley, 2011
Descrizione fisica 1 online resource (246 p.)
Disciplina 620.106
668.9
Altri autori (Persone) GarsteckiPiotr
Soggetto topico Emulsion polymerization
Microfluidic devices
Microreactors
ISBN 1-119-99028-9
1-283-37398-X
9786613373984
0-470-97923-2
0-470-97922-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Microfluidic Reactors for Polymer Particles; Contents; Preface; 1 Applications of Polymer Particles; References; 2 Methods for the Generation of Polymer Particles; 2.1 Conventional Methods Used for Producing Polymer Particles; 2.2 Microfluidic Generation of Polymer Particles; References; 3 Introduction to Microfluidics; 3.1 Microfluidics; 3.2 Droplet Microfluidics; References; 4 Physics of Microfluidic Emulsification; 4.1 Energy of the Interfaces Between Immiscible Fluids; 4.2 Surfactants; 4.3 Interfacial Tension; 4.4 Laplace Pressure; 4.5 Rayleigh-Plateau Instability
4.6 Wetting of a Solid Surface4.7 Analysis of Flow; 4.8 Flow in Networks of Microchannels; 4.9 Dimensional Groups; References; 5 Formation of Droplets in Microfluidic Systems; 5.1 Introduction; 5.1.1 Geometrical Confinement; 5.1.2 The Cost of Confinement; 5.2 Microfluidic Generators of Droplets and Bubbles; 5.3 T-Junction; 5.3.1 Parameters that Determine the Dynamics; 5.3.2 First Reports; 5.3.3 Mechanism of Operation of the T-Junction System; 5.3.4 Variations of the Geometry of the T-Junction; 5.3.5 Summary of the Mechanism of Breakup in the T-Junction
5.3.6 Maximum Throughput of a Single Junction5.4 Formation of Droplets and Bubbles in Microfluidic Flow- Focusing Devices; 5.4.1 First Reports and Observations; 5.4.2 Dynamics of Flow-Focusing Systems at Low Contrast of Viscosities; 5.4.2.1 Formation of Bubbles; 5.4.2.2 Formation of Droplets; 5.4.3 Flow Focusing: Formation of Viscous Droplets; 5.5 Practical Guidelines for the Use of Microfluidic Devices for Formation of Droplets; 5.5.1 Types of Fluids; 5.5.2 Surfactants; 5.5.3 Wetting; 5.5.4 Size of the Droplets; 5.5.5 Supplying the Liquids; 5.6 Designing Droplets
5.6.1 Control of the Interface of Homogeneous Droplets5.6.2 Heterogeneous Droplets; 5.6.3 Multiple Emulsions; 5.7 Conclusions; References; 6 High-Throughput Microfluidic Systems for Formation of Droplets; 6.1 Introduction; 6.2 Effects that Modify the Pressure Distribution; 6.3 Hydrodynamic Coupling; 6.4 Integrated Systems; 6.5 Parallel Formation of Droplets of Distinct Properties; 6.6 Conclusions; References; 7 Synthesis of Polymer Particles in Microfluidic Reactors; 7.1 Introduction; 7.2 Particles Synthesized by Free-Radical Polymerization; 7.2.1 Polymerization in Multi-Phase Flow
7.2.1.1 Emulsification of Polymerizable Liquids7.2.2 Synthesis in Single-Phase Flow; 7.3 Polymer Particles Synthesized by Polycondensation; 7.4 Combination of Free-Radical Polymerization and Polycondensation Reactions; 7.5 General Considerations on the Use of Other Polymerization Mechanisms; 7.6 Important Aspects of Microfluidic Polymerization of Polymer Particles; 7.6.1 Modes of Microfluidic Polymerization; 7.6.2 Achieving High Conversion in Microfluidic Polymerization; 7.6.3 In Situ Polymerization of Monomer Droplets; 7.7 Synthesis of Composite Particles; 7.7.1 Copolymer Particles
7.7.2 Polymer Particles Loaded with Low-Molecular Weight Organic Additives
Record Nr. UNINA-9910830892603321
Kumacheva Eugenia  
Chichester, West Sussex ; ; [Hoboken, N.J.], : Wiley, 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Microfluidic reactors for polymer particles / / Eugenia Kumacheva and Piotr Garstecki
Microfluidic reactors for polymer particles / / Eugenia Kumacheva and Piotr Garstecki
Autore Kumacheva Eugenia
Pubbl/distr/stampa Chichester, West Sussex ; ; [Hoboken, N.J.], : Wiley, 2011
Descrizione fisica 1 online resource (246 p.)
Disciplina 668.9
Altri autori (Persone) GarsteckiPiotr
Soggetto topico Emulsion polymerization
Microfluidic devices
Microreactors
ISBN 1-119-99028-9
1-283-37398-X
9786613373984
0-470-97923-2
0-470-97922-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Microfluidic Reactors for Polymer Particles; Contents; Preface; 1 Applications of Polymer Particles; References; 2 Methods for the Generation of Polymer Particles; 2.1 Conventional Methods Used for Producing Polymer Particles; 2.2 Microfluidic Generation of Polymer Particles; References; 3 Introduction to Microfluidics; 3.1 Microfluidics; 3.2 Droplet Microfluidics; References; 4 Physics of Microfluidic Emulsification; 4.1 Energy of the Interfaces Between Immiscible Fluids; 4.2 Surfactants; 4.3 Interfacial Tension; 4.4 Laplace Pressure; 4.5 Rayleigh-Plateau Instability
4.6 Wetting of a Solid Surface4.7 Analysis of Flow; 4.8 Flow in Networks of Microchannels; 4.9 Dimensional Groups; References; 5 Formation of Droplets in Microfluidic Systems; 5.1 Introduction; 5.1.1 Geometrical Confinement; 5.1.2 The Cost of Confinement; 5.2 Microfluidic Generators of Droplets and Bubbles; 5.3 T-Junction; 5.3.1 Parameters that Determine the Dynamics; 5.3.2 First Reports; 5.3.3 Mechanism of Operation of the T-Junction System; 5.3.4 Variations of the Geometry of the T-Junction; 5.3.5 Summary of the Mechanism of Breakup in the T-Junction
5.3.6 Maximum Throughput of a Single Junction5.4 Formation of Droplets and Bubbles in Microfluidic Flow- Focusing Devices; 5.4.1 First Reports and Observations; 5.4.2 Dynamics of Flow-Focusing Systems at Low Contrast of Viscosities; 5.4.2.1 Formation of Bubbles; 5.4.2.2 Formation of Droplets; 5.4.3 Flow Focusing: Formation of Viscous Droplets; 5.5 Practical Guidelines for the Use of Microfluidic Devices for Formation of Droplets; 5.5.1 Types of Fluids; 5.5.2 Surfactants; 5.5.3 Wetting; 5.5.4 Size of the Droplets; 5.5.5 Supplying the Liquids; 5.6 Designing Droplets
5.6.1 Control of the Interface of Homogeneous Droplets5.6.2 Heterogeneous Droplets; 5.6.3 Multiple Emulsions; 5.7 Conclusions; References; 6 High-Throughput Microfluidic Systems for Formation of Droplets; 6.1 Introduction; 6.2 Effects that Modify the Pressure Distribution; 6.3 Hydrodynamic Coupling; 6.4 Integrated Systems; 6.5 Parallel Formation of Droplets of Distinct Properties; 6.6 Conclusions; References; 7 Synthesis of Polymer Particles in Microfluidic Reactors; 7.1 Introduction; 7.2 Particles Synthesized by Free-Radical Polymerization; 7.2.1 Polymerization in Multi-Phase Flow
7.2.1.1 Emulsification of Polymerizable Liquids7.2.2 Synthesis in Single-Phase Flow; 7.3 Polymer Particles Synthesized by Polycondensation; 7.4 Combination of Free-Radical Polymerization and Polycondensation Reactions; 7.5 General Considerations on the Use of Other Polymerization Mechanisms; 7.6 Important Aspects of Microfluidic Polymerization of Polymer Particles; 7.6.1 Modes of Microfluidic Polymerization; 7.6.2 Achieving High Conversion in Microfluidic Polymerization; 7.6.3 In Situ Polymerization of Monomer Droplets; 7.7 Synthesis of Composite Particles; 7.7.1 Copolymer Particles
7.7.2 Polymer Particles Loaded with Low-Molecular Weight Organic Additives
Record Nr. UNINA-9910877450703321
Kumacheva Eugenia  
Chichester, West Sussex ; ; [Hoboken, N.J.], : Wiley, 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Miniemulsion polymerization technology / / Vikas Mittal ; cover design by Russell Richardson
Miniemulsion polymerization technology / / Vikas Mittal ; cover design by Russell Richardson
Autore Mittal Vikas
Pubbl/distr/stampa Hoboken, New Jersey ; ; Salem, Massachusetts : , : Scrivener : , : Wiley, , 2010
Descrizione fisica xiv, 311 p
Disciplina 668.9/2
Soggetto topico Emulsion polymerization
Microencapsulation
Nanoparticles
ISBN 1-282-84917-4
0-470-92235-4
9786612849176
0-470-92234-6
1-61344-181-9
0-470-92316-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910208846503321
Mittal Vikas  
Hoboken, New Jersey ; ; Salem, Massachusetts : , : Scrivener : , : Wiley, , 2010
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Miniemulsion polymerization technology / / Vikas Mittal
Miniemulsion polymerization technology / / Vikas Mittal
Autore Mittal Vikas
Pubbl/distr/stampa Salem, MA, : Scrivener ; Hoboken, NJ, : Wiley, 2010
Descrizione fisica xiv, 311 p
Disciplina 668.9/2
Soggetto topico Emulsion polymerization
Microencapsulation
Nanoparticles
ISBN 1-282-84917-4
0-470-92235-4
9786612849176
0-470-92234-6
1-61344-181-9
0-470-92316-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910809851803321
Mittal Vikas  
Salem, MA, : Scrivener ; Hoboken, NJ, : Wiley, 2010
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Principles and applications of emulsion polymerization [[electronic resource] /] / Chorng-Shyan Chern
Principles and applications of emulsion polymerization [[electronic resource] /] / Chorng-Shyan Chern
Autore Chern Chorng-Shyan
Pubbl/distr/stampa Hoboken, N.J., : Wiley, c2008
Descrizione fisica 1 online resource (268 p.)
Disciplina 668.9
668.92
Soggetto topico Emulsion polymerization
Soggetto genere / forma Electronic books.
ISBN 1-281-75190-1
9786611751906
0-470-37794-1
0-470-37793-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto PRINCIPLES AND APPLICATIONS OF EMULSION POLYMERIZATION; CONTENTS; Preface; 1 Introduction; 1.1 Free Radical Polymerization; 1.1.1 Free Radical Polymerization Mechanisms; 1.1.2 Free Radical Polymerization Kinetics; 1.2 Emulsion Polymerization; 1.2.1 Conventional Emulsion Polymerization; 1.2.2 Emulsion Polymerization Processes; 1.2.3 Miniemulsion Polymerization; 1.2.4 Microemulsion Polymerization; 1.2.5 Inverse Emulsion Polymerization; 1.3 Colloidal Stability; 1.3.1 A Critical but Often Ignored Issue; 1.3.2 Electrostatic Interactions; 1.3.3 Steric Interactions; 1.3.4 Mechanical Stability
1.4 Some Performance Properties for Industrial Applications1.4.1 Rheology; 1.4.2 Film Formation; References; 2 Interfacial Phenomena; 2.1 Thermodynamic Consideration; 2.1.1 Emulsification of Oil in Water; 2.1.2 Interfaces; 2.1.3 Surfactant Molecules Adsorbed at an Interface; 2.2 Surfactants; 2.2.1 Critical Micelle Concentration (CMC); 2.2.2 Hydrophile-Lipophile Balance (HLB); 2.2.3 Solubility Parameter; 2.3 Colloidal Stability; 2.3.1 Van der Waals Forces; 2.3.2 Electrostatic Interactions; 2.3.3 Steric Interactions; 2.3.4 Kinetics of Flocculation; References; 3 Particle Nucleation Mechanisms
3.1 Micellar Nucleation3.1.1 Harkins-Smith-Ewart Theory; 3.1.2 Competitive Absorption of Free Radicals by Micelles and Particle Nuclei; 3.2 Homogeneous Nucleation; 3.2.1 Formation of Particle Nuclei in the Continuous Aqueous Phase; 3.2.2 Hansen-Ugelstad-Fitch-Tsai (HUFT) Model; 3.3 Coagulative Nucleation; 3.3.1 General Features of Coagulative Nucleation; 3.3.2 Coagulative Nucleation Model Development; 3.4 Mixed Mode of Particle Nucleation Mechanisms; 3.5 Surfactant-Free Emulsion Polymerization; 3.6 Experimental Work on Particle Nucleation; 3.6.1 A Dilemma about Particle Nucleation Mechanisms
3.6.2 Some Representative Experimental Data of Particle Nucleation3.6.3 Some Potential Techniques for Studying Particle Nucleation; 3.6.4 Effects of Surfactant Concentration on Particle Nucleation; 3.7 Nonionic and Mixed Surfactant Systems; 3.7.1 Nonionic Surfactant Systems; 3.7.2 Mixed Anionic and Nonionic Surfactant Systems; References; 4 Emulsion Polymerization Kinetics; 4.1 Emulsion Polymerization Kinetics; 4.1.1 Smith-Ewart Theory; 4.1.2 Pioneering Kinetic Models for Predicting Average Number of Free Radicals per Particle; 4.2 Absorption of Free Radicals by Latex Particles
4.2.1 Collision- and Diffusion-Controlled Models4.2.2 Propagation-Controlled Model; 4.2.3 Some Controversial Issues; 4.3 Desorption of Free Radicals Out of Latex Particles; 4.3.1 Desorption of Free Radicals in Emulsion Homopolymerization Systems; 4.3.2 Desorption of Free Radicals in Emulsion Copolymerization Systems; 4.3.3 Effect of Interfacial Properties on Desorption of Free Radicals; 4.4 Growth of Latex Particles; 4.4.1 Thermodynamic Consideration; 4.4.2 Concentrations of Comonomers in Emulsion Copolymerization Systems; 4.4.3 Competitive Growth of Latex Particles
4.5 Polymer Molecular Weight
Record Nr. UNINA-9910144135703321
Chern Chorng-Shyan  
Hoboken, N.J., : Wiley, c2008
Materiale a stampa
Lo trovi qui: Univ. Federico II
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