Synthesis and applications of copolymers / ed. A.Parthiban. (Hoboken, 2014). - ОГЛАВЛЕНИЕ / CONTENTS
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ОбложкаSynthesis and applications of copolymers / ed. A.Parthiban. - Hoboken: Wiley, 2014. - xvi, 384 p.: ill. - Bibliogr. at the end of the chapters. - Ind.: p.373-384. - ISBN 978-1-118-05746-9
Шифр: (И/Л7-S98) 02

 

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Оглавление / Contents
 
Preface ....................................................... xii
Contributors ................................................... xv


SECTION I  SYNTHESIS OF COPOLYMERS
1    Trends in Synthetic Strategies for Making (CO)Polymers
     Anbanandam Patthiban
1.1  Background and Introduction ................................ 3
1.2  Significance of Control Over Arrangement of Monomers in
     Copolymers ................................................. 5
1.3  Chain-Growth Condensation Polymerization ................... 5
     1.3.1  Sequential Self-Repetitive Reaction (SSRR) .......... 6
     1.3.2  Poly(phenylene Oxide)s by Chain-Growth
            Condensation Polymerization ......................... 8
     1.3.3  Hydroxybenzoic Acids as AA' Type Monomer in
            Nucleophilic Aliphatic Substitution Polymerization .. 8
1.4  Sequence-Controlled Polymerization ......................... 9
     1.4.1  Sequence-Controlled Copolymers of N-Substituted
            Maleimides ......................................... 10
     1.4.2  Alternating Copolymers by Ring-Opening
            Polymerization ..................................... 10
     1.4.3  Selective Radical Addition Assisted by a Template .. 11
     1.4.4  Alternating AB-Type Sequence-Controlled Polymers ... 11
     1.4.5  Metal-Templated ABA Sequence Polymerization ........ 11
     1.4.1  Sequence-Controlled Vinyl Copolymers ............... 12
     1.4.7  Sequence-Regulated Polymerization Induced by
            Dual-Functional Template ........................... 13
1.5  Processing of Thermoset Polymers: Dynamic Bond Forming
     Processes and Self-Healing Materials ...................... 13
     1.5.1  Plasticity of Networked Polymers Induced by Light .. 14
     1.5.2  Radically Exchangeable Covalent Bonds .............. 14
     1.5.3  Self-Repairing Polyurethane Networks ............... 15
     1.5.4  Temperature-Induced Self-Healing in Polymers ....... 15
     1.5.5  Diels-Alder Chemistry at Room Temperature .......... 15
     1.5.6  Trithiocarbonate-Centered Responsive Gels .......... 16
     1.5.7  Shuffling of Trithiocarbonate Units Induced by
            Light .............................................. 16
     1.5.8  Processable Organic Networks ....................... 17
1.6  Miscellaneous Developments ................................ 17
     1.6.1  Atom Transfer Radical Polymerization (ATRP)
            Promoted by Unimolecular Ligand-Initiator Dual-
            Functional Systems (ULIS) .......................... 17
     1.6.2  Unsymmetrical Ion-Pair Comonomers and Polymers ..... 20
     1.6.3  Imidazole-Derived Zwitterionic Polymers ............ 21
     1.6.4  Post-Modification of Polymers Bearing Reactive
            Pendant Groups ..................................... 22
1.7  Conclusion ................................................ 23
     References ................................................ 24

2    Functional Polyolefins from the Coordination
     Copolymerization of Vinyl Monomers ........................ 29
     Fabio Di Lena and João A.S. Bomfim
2.1  Molecular Aspects of Olefin Coordination to Metals ........ 29
2.2  Fundamentals of Homopolymerization of Alkenes ............. 30
2.3  Copolymerization of Ethene and other Alkenes .............. 34
2.4  Copolymerization of Alkenes and Carbon Monoxide ........... 35
2.5  Copolymerization of Alkenes and Polar Vinyl Monomers ...... 37
     2.5.1  Migratory Insertion Polymerization ................. 37
     2.5.2  Polymerization via a Dual Radical/Migratory
            Insertion Pathway .................................. 40
     2.5.3  Coordinative Group Transfer Polymerization ......... 41
2.6  Copolymerization of Polar Vinyl Monomers and Carbon
     Monoxide .................................................. 41
2.7  Why are Phosphine-Sulfonate Ligands so Special? ........... 43
2.8  Telechelic and End-Capped Macromolecules .................. 44
2.9  On the Use of Chemoinformatics for a More Rapid
     Development of the Field .................................. 44
2.10 Conclusion and Outlook .................................... 45
     References ................................................ 46

3    General Aspects of Copolymerization ....................... 54
     Alex Van Herk
3.1  Copolymerization in Chain Reactions ....................... 54
     3.1.1  Derivation of the Copolymerization Equation ........ 55
     3.1.2  Types of Copolymers ................................ 57
     3.1.3  Polymerization Rates in Copolymerizations .......... 59
3.2  Measuring Copolymerization Parameters ..................... 60
3.3  Influence of Reaction Conditions .......................... 63
3.4  Short-Chain Effects in Copolymerization ................... 63
3.5  Synthesis of Block Copolymers With Controlled Chain
     Architecture .............................................. 64
     References ................................................ 66

4    Polymers Bearing Reactive, Pendant Cyclic Carbonate (CC)
     Group: Syntheses, Post-Polymerization Modifications, and
     Applications .............................................. 67
     Satyasankar Jana
4.1  Introduction .............................................. 67
4.2  Cyclic Carbonate (CC) Monomers and Polymers ............... 68
     4.2.1  Cyclic Carbonate (CC) Monomers and Their
            Synthesis .......................................... 68
     4.2.2  Polymerization of Cyclic Carbonate (CC) Monomers ... 75
     4.2.3  Alternative Route to Synthesize Pendant CC
            (Co)polymers by CO2 Addition/Fixation Reaction ..... 83
4.3  Chemical Modification of Pendant CC Polymers .............. 85
4.4  Applications of Pendant CC Polymers ....................... 88
     4.4.1  Fixing CO2 into Polymer ............................ 88
     4.4.2  Surface Coating .................................... 90
     4.4.3  Solid or Gel Polymer Electrolyte for Lithium-Ion
            Batteries .......................................... 90
     4.4.4  Enzyme Immobilization .............................. 91
     4.4.5  Photopolymerization ................................ 91
     4.4.6  Polymer Blends ..................................... 92
4.5  Conclusion ................................................ 92
     References ................................................ 93

5    Monomers and Polymers Derived from Renewable or
     Partially Renewable Resources ............................ 101
     Anbanandam Parthiban
5.1  Building Blocks from Renewable Resources ................. 101
5.2  Polyesters Incorporated with Isosorbide .................. 105
     5.2.1  Poly(hydroxy ester)s Derived from Macrolides ...... 106
     5.2.2  Semicrystalline Polymers from Fatty Acids ......... 107
     5.2.3  Cyclic Ester Derived from a Natural Precursor ..... 107
     5.2.4  Polymerization of Dilactone Derived from
            12-Hydroxy Stearic Acid ........................... 107
     5.2.5  Thermoplastic Elastomers Derived from Polylactide
            and Polymenthide .................................. 108
5.3  Rosin and Developments Associated with Rosin ............. 110
     5.3.1  Polyamides and Polyesters Derived from Modified
            Levopimeric Acid .................................. 110
     5.3.2  Radical Polymerization of Modified Dehydroabietic
            Acid .............................................. 112
     5.3.3  ATRP of Vinyl Monomers Derived from
            Dehydroabietic Acid ............................... 112
     5.3.4  Block Copolymers Derived from Dehydroabietic
            Acid Derivative ................................... 112
5.4  Polyurethanes from Vegetable Oils ........................ 113
     5.4.1  Polyurethanes Derived from Plant Oil
            Triglycerides ..................................... 114
     5.4.2  Long-Chain Unsaturated Diisocyanates Derived
            from Fatty Acids of Vegetable Origin .............. 114
5.5  C02 as Renewable Resource Comonomer ...................... 115
5.6  Renewable Triblock Copolymer-Based Pressure-Sensitive
     Adhesives (PSA) .......................................... 115
5.7  Photocurable Renewable Resource Polyester ................ 116
5.8  Renewable Resource-Derived Waterborne Polyesters ......... 116
     5.8.1  Polyesters Made Up of Isosorbide and Succinic
            Acid .............................................. 117
     5.8.2  Polyesters Modified with Citric Acid .............. 117
5.9  Polymers Formed by Combining Renewable Resource
     Monomers with that Derived from Petroleum Feedstock ...... 117
5.10 Conclusion and Outlook ................................... 120
References .................................................... 121

6    Microporous Organic Polymers: Synthesis, Types, and
     Applications ............................................. 125
     Shujun Xu and Bien Tan
6.1  Introduction ............................................. 125
6.2  Preparations of MOPS ..................................... 126
     6.2.1  Polymers of Intrinsic Microporosity ............... 126
     6.2.2  Hypercrosslinked Polymer .......................... 132
     6.2.3  Covalent Organic Frameworks ....................... 134
     6.2.4  Conjugated Microporous Polymers ................... 138
6.3  Hydrogen Adsorption ...................................... 141
     6.3.1  HCPs for Hydrogen Adsorption ...................... 142
     6.3.2  PIMs for Hydrogen Adsorption ...................... 144
     6.3.3  COFs for Hydrogen Adsorption ...................... 145
     6.3.4  CMPs for Hydrogen Adsorption ...................... 145
6.4  Carbon Dioxide Capture ................................... 145
6.5  Separations .............................................. 149
     6.5.1  HCPs for Separations .............................. 150
     6.5.2  PIMs for Separations .............................. 153
     6.5.3  CMPs for Separations .............................. 153
6.6  Catalysis ................................................ 153
6.7  Prospect ................................................. 155
References .................................................... 156

7    Dendritic Copolymers ..................................... 165
     Srinivasa Rao Vmukonda
7.1  Introduction ............................................. 165
7.2  Synthesis Approaches or Strategies ....................... 166
     7.2.1  AB2 + A2 Approach ................................. 166
     7.2.2  AB2 + AB Approach ................................. 167
     7.2.3  B3 + A2 + B2 Approach (Biocatalyst) ............... 167
     7.2.4  Macromonomers Approach ............................ 167
     7.2.5  Dendrigraft Approach .............................. 171
     7.2.6  Linear-Dendritic Copolymers ....................... 173
     7.2.7  Living Anionic Polymerization ..................... 178
     7.2.8  Controlled Living Radical Polymerization .......... 185
     7.2.9  Click Chemistry ................................... 194
7.3  Properties of Dendritic Copolymers ....................... 198
     7.3.1  Molecular Weight and Molecular Weight
            Distribution ...................................... 198
     7.3.2  Degree of Branching (DB) .......................... 200
     7.3.3  Intrinsic Viscosity ............................... 202
7.4  Applications of Dendritic Copolymers ..................... 203
     References ............................................... 204

SECTION II  APPLICATIONS OF COPOLYMERS ........................ 215
8    A New Class of Ion-Conductive Polymer Electrolytes:
     CO2/Epoxide Alternating Copolymers With Lithium Salts .... 217
     Yoichi Tominaga
8.1  Introduction ............................................. 217
8.2  Experimental ............................................. 220
     8.2.1  Preparation of Monomers and Catalyst .............. 220
     8.2.2  Copolymerization of Epoxides with CO2 ............. 220
     8.2.3  Preparation of Electrolyte Membranes .............. 222
     8.2.4  Measurements ...................................... 222
8.3  Results and Discussion ................................... 222
     8.3.1  NMR Characterization .............................. 222
     8.3.2  Characteristics of Polycarbonates ................. 224
     8.3.3  Thermal Analysis of Polycarbonates ................ 225
     8.3.4  Impedance Measurement of Copolymers ............... 228
     8.3.5  FT-IR Measurement ................................. 231
     8.3.6  PEC System: Effect of Salt Concentration .......... 232
8.4  Conclusion ............................................... 235
     References ............................................... 236

9    Block Copolymer Nanopatterns as Enabling Platforms for
     Device Applications - Status, Issues, and Challenges ..... 239
     Sivashankar Krishnamoorthy
9.1  Introduction ............................................. 239
9.2  Block Copolymer Templates for Pattern Transfer
     Applications ............................................. 240
     9.2.1  Dimensional Scalability and Fine-Tunability Down
            to Sub-10nm Length Scales ......................... 240
     9.2.2  Directing Self-Assembly of Block Copolymers ....... 241
     9.2.3  Block Copolymers for Directed Nanoscale Synthesis
            and Self-Assembly ................................. 244
     9.2.4  High Resolution Nanolithography ................... 244
     9.2.5  Nanomanufacturing Material Patterns for
            Applications ...................................... 245
     9.2.6  Тор-Down Patterning of Block Copolymer
            Nanostractures .................................... 249
9.3  Specific Instances in Exploitation of Block Copolymers
     in Device Applications ................................... 251
     9.3.1  Memory Devices .................................... 251
     9.3.2  Integrated Circuit Elements ....................... 254
     9.3.3  Photovoltaic and Optoelectronics Applications ..... 255
     9.3.4  Sensors ........................................... 256
     9.3.5  Nanoporous Membranes for Size-Exclusive
            Filtration or Sensing ............................. 261
9.4  Conclusions .............................................. 263
     References ............................................... 263

10   Stimuli-Responsive Copolymers and Their Applications ..... 274
     He Tao
10.1 Introduction ............................................. 274
10.2 Temperature-Responsive Copolymers and Applications ....... 275
     10.2.1 Temperature-Responsive Copolymers Based on LCST ... 276
10.3 pH-Responsive Copolymers and Applications ................ 284
     10.3.1 pH-Responsive Segments ............................ 285
     10.3.2 Polymer Nanoparticles/Micelles Prepared from
            pH-Responsive Copolymers .......................... 287
     10.3.3 pH-Responsive Surfaces and Hydrogels .............. 287
     10.3.4 Typical Applications of pH-Responsive Copolymers .. 289
10.4 Biologically Responsive Copolymers and Applications ...... 290
     10.4.1 Glucose-Responsive Copolymers and Applications .... 290
10.5 Field-Responsive Copolymers and Applications ............. 293
     10.5.1 Electric-Responsive Copolymers .................... 294
     10.5.2 Magneto-Responsive Copolymers ..................... 294
     10.5.3 Light-Responsive Copolymers ....................... 295
10.6 Conclusion ............................................... 297
     References ............................................... 297

11   Pharmaceutical Polymers .................................. 307
     Natarajan Venkatesan and Hideki Ichikawa
11.1 Introduction to Pharmaceutical Polymers .................. 307
11.2 Applications of Pharmaceutical Polymers .................. 308
     11.2.1 Polymers as Excipients ............................ 308
     11.2.2 Functional Excipients ............................. 317
     11.2.3 Drag Delivery Agents .............................. 320
     11.2.4 Solubility and Bioavailability Enhancement ........ 322
     11.2.5 Transdermal Drug Delivery ......................... 324
     11.2.6 Novel Polymeric Hydrogels for Drug Delivery
            Applications ...................................... 324
11.3 Summary .................................................. 329
     References ............................................... 329

12   Polymer Conjugates of Proteins and Drugs to Improve
     Therapeutics ............................................ 334
     Parijat Kanaujia and Ajazuddin
12.1 Introduction ............................................. 334
12.2 Polymers for Therapeutic Conjugation ..................... 335
     12.2.1 Polyethylene Glycol) Protein Conjugate ............ 336
     12.2.2 Significance of PEG ............................... 337
     12.2.3 Chemistry of Protein-PEG Conjugation .............. 338
     12.2.4 Biofate of PEGylated Proteins ..................... 348
12.3 PEGylated Proteins in Clinical Practice .................. 351
     12.3.1 PEG Conjugate with Low Molecular Weight Drags ..... 351
     12.3.2 PEG Structures for Small-Molecule PEGylation ...... 351
     12.3.3 Advantages of PEGylated Drags ..................... 355
12.4 N-(2-Hydroxypropyl) Methacrylamide (HPMA) Copolymer
     Conjugate ................................................ 358
12.5 Poly(L-Glutamic Acid) Conjugates ......................... 362
12.6 Polysialic Acid (PSA) Conjugates ......................... 363
12.7 Conclusion ............................................... 364
References .................................................... 365

Index ......................................................... 373


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