Verfügbarkeit: Sustainable polymers from biomass

Sustainable polymers from biomass:

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Bibliographische Detailangaben
Weitere Verfasser:	Tang, Chuanbing (HerausgeberIn), Ryu, Chang Y. (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH Verlag GmbH & Co. KGaA [2017]
Schlagworte:	Biomasse Polymere Grüne Chemie Biochemical Engineering Biochemische Verfahrenstechnik Biopolymere Biopolymers Chemical Engineering Chemie Chemische Verfahrenstechnik Chemistry Nachhaltige u. Grüne Chemie Polymer Science & Technology Polymerwissenschaft u. -technologie Sustainable Chemistry & Green Chemistry Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	xiv, 356 Seiten Illustrationen, Diagramme
ISBN:	9783527340163 3527340165

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Datensatz im Suchindex

_version_	1804177478057459712
adam_text	CONTENTS LIST OF CONTRIBUTORS X I 1 INTRODUCTION 1 MITRA 5. GANEWATTA, CHUANBING TANG, AND CHANG Y RYU 1.1 INTRODUCTION 1 1.2 SUSTAINABLE POLYMERS 2 1.3 BIOMASS RESOURCES FOR SUSTAINABLE POLYMERS 4 1.3.1 NATURAL BIOPOLYMERS 4 1.3.2 MONOMERS AND POLYMERS FROM BIOMASS 6 1.4 CONCLUSIONS S REFERENCES 8 2 POLY HYD ROXYA I KA NOATES: SUSTAINABILITY, PRODUCTION, AND INDUSTRIALIZATION 11 YING WANG AND GUO-QIANG CHEN 2.1 INTRODUCTION 11 2.2 PH A DIVERSITY AND PROPERTIES 14 2.2.1 PH A DIVERSITY 14 2.2.2 PH A PROPERTIES 15 2.3 PH A PRODUCTION FROM BIOMASS 16 2.3.1 PHA PRODUCTION STRAINS 16 2.3.2 PHA SYNTHESIS PATHWAYS 17 2.3.3 PHA PRODUCTION FROM UNRELATED CARBON SOURCES 17 2.3.3.1 PRODUCTION OF P3HB4HB FROM UNRELATED CARBON SOURCES 19 233.2 PHBV PRODUCTION FROM VARIOUS SUBSTRATES 24 2 3 3 3 PHA PRODUCTION UNDER SEAWATER-BASED OPEN AND CONTINUOUS CONDITIONS FROM MIXED SUBSTRATES 25 2.4 PHA APPLICATION AND INDUSTRIALIZATION 26 2.5 CONCLUSION 28 ACKNOWLEDGMENT 28 REFERENCES 28 3 POLYLACTIDE: FABRICATION OF LONG CHAIN BRANCHED POLYLACTIDES AND THEIR PROPERTIES AND APPLICATIONS 35 ZHIGANG WANG AND HUAGAO FANG INTRODUCTION 35 3.1 3.2 FABRICATION OF LCB PLAS 36 3.2.1 LCB PLAS ON THE BASIS OF THE GROUP REACTION MECHANISM 36 3.2.2 LCB PLAS ON THE BASES OF THE RADICAL COUPLING MECHANISM 37 3.3 STRUCTURAL CHARACTERIZATION ON LCB PLAS 38 3.3.1 SIZE-EXCLUSION CHROMATOGRAPHY (SEC) 39 3.3.2 RHEOLOGY 40 3.4 THE RHEOLOGICAL PROPERTIES OF LCB PLAS 43 3.5 CRYSTALLIZATION KINETICS OF LCB PLAS 46 3.6 APPLICATIONS OF LCB PLAS 48 3.7 CONCLUSIONS 51 ACKNOWLEDGMENTS 51 REFERENCES 51 4 SUSTAINABLE VINYL POLYMERS VIA CONTROLLED POLYMERIZATION OFTERPENES 55 MASAMI KAMIGAITO AND KOTARO SATOH 4.1 INTRODUCTION 55 4.2 SS-PINENE 57 4.2.1 CATIONIC POLYMERIZATION 57 4.2.2 RADICAL COPOLYMERIZATION 60 4.2.3 POLYMERIZATION OF SS-PINENE-DERIVED VINYL MONOMERS 62 4.3 A-PINENE 63 4.3.1 CATIONIC POLYMERIZATION 63 4.3.2 POLYMERIZATION OF A-PINENE-DERIVED VINYL MONOMERS 64 4.4 LIMONENE 65 4.4.1 CATIONIC POLYMERIZATION 65 4.4.2 RADICAL COPOLYMERIZATION 65 4.4.3 COORDINATION POLYMERIZATION AND ROMP 68 4.5 SS-MYRCENE, OC-OCIMENE, AND ALLOOCIMENE 69 4.5.1 RADICAL POLYMERIZATION 69 4.5.2 CATIONIC POLYMERIZATION 71 4.5.3 ANIONIC POLYMERIZATION 73 4.5.4 COORDINATION POLYMERIZATION 74 4.5.5 POLYMERIZATION OF MYRCENE-DERIVED VINYL MONOMERS 76 4.6 OTHER TERPENE OR TERPENOID MONOMERS 76 4.6.1 A- AND SS-PHELLANDRENES 76 4.6.2 SS-FARNESENE 77 4.6.3 SS-CARYOPHYLLENE AND OC-HUMULENE 78 4.6.4 MONOTERPENE ALDEHYDES 78 4.7 CONCLUSION 80 ABBREVIATIONS 80 REFERENCES 81 5 USE OF ROSIN AND TURPENTINE AS FEEDSTOCKS FOR THE PREPARATION OF POLYURETHANE POLYMERS 91 MENG ZHANG, YONGHONG ZHOU, AND JINWEN ZHANG 5.1 INTRODUCTION 91 5.2 ROSIN BASED POLYURETHANE FOAMS 92 5.3 ROSIN-BASED POLYURETHANE ELASTOMERS 95 5.4 TERPENE-BASED POLYURETHANES 95 5.5 TERPENE-BASED WATERBORNE POLYURETHANES 97 5.6 ROSIN-BASED SHAPE MEMORY POLYURETHANES 99 5.7 CONCLUSIONS 100 REFERENCES 101 6 ROSIN-DERIVED MONOMERS AND THEIR PROGRESS IN POLYMER APPLICATION 103 LIFU WANG, SHAOFENG LIU, JUAN YU, CHUANWEI LU, CHUNPENG WANG, AND FUXIANG CHU 6.1 INTRODUCTION 103 6.2 ROSIN CHEMICAL COMPOSITION 104 6.3 ROSIN DERIVED MONOMERS FOR MAIN-CHAIN POLYMERS 105 6.3.1 ROSIN-DERIVED MAIN-CHAIN POLYMERS FROM MPA AND ITS DERIVATIVES 105 6.3.2 ROSIN-DERIVED POLYMERS FROM APA AND ITS DERIVATIVES 107 6.3.3 KETONIC TYPE ROSIN-DERIVED MACRO-MONOMERS 110 6.3.4 OTHERS 111 6.4 ROSIN-DERIVED MONOMERS FOR SIDE-CHAIN POLYMERS 112 6.4.1 ROSIN DERIVED MONOMERS 112 6.4.2 SIDE-CHAIN LINEAR HOMOPOLYMERS 114 6.4.2.1 SIDE-CHAIN LINEAR HOMOPOLYMERS PREPARED BY ATRP 114 6.4.2.2 SIDE-CHAIN LINEAR HOMOPOLYMER PREPARED BY RAFT 115 6.4.3 SIDE-CHAIN LINEAR COPOLYMERS 116 6.4.3.1 SIDE-CHAIN LINEAR ROSIN ACID-CAPROLACTONE BLOCK COPOLYMERS 116 6.4.3.2 SIDE-CHAIN LINEAR ROSIN ACID-PEG AMPHIPHILIC BLOCK COPOLYMERS 118 6.4.4 SIDE-CHAIN GRAFTED COPOLYMERS 120 6.4.4.1 SIDE-CHAIN GRAFTED COPOLYMER BY CLICK CHEMISTRY 120 6A4.2 SIDE-CHAIN GRAFTED COPOLYMER BY ATRP 124 6.4.4.3 SIDE-CHAIN GRAFTED COPOLYMER BY OTHER METHOD 130 6.5 ROSIN-DERIVED MONOMERS FOR THREE-DIMENSIONAL ROSIN-BASED POLYMER 131 6.5.1 THREE-DIMENSIONAL ROSIN-BASED POLYMER BY CONDENSATION POLYMERIZATION 132 6.5.1.1 ROSIN MODIFIED PHENOLIC RESINS 132 6.5.1.2 ROSIN-BASED POLYURETHANE 133 6.5.1.3 ROSIN-BASED THERMOSET RESIN FROM EPOXY RESIN 134 6.5.2 THREE-DIMENSIONAL ROSIN-BASED POLYMER BY FREE RADICAL POLYMERIZATION 136 6.5.2.1 ROSIN-BASED UV CURING RESIN 136 6.5.2.2 ROSIN-BASED THERMAL CURING RESIN 138 6.6 OUTLOOK AND CONCLUSIONS 140 ACKNOWLEDGMENTS 141 REFERENCES 141 7 INDUSTRIAL APPLICATIONS OF PINE-CHEMICAL-BASED MATERIALS 151 LIEN PHUN, DAVID SNEAD, PHILLIP HURD, AND FENGJING 7.1 PINE CHEMICALS INTRODUCTION 151 7.2 CRUDE TALL OIL 151 7.3 TERPENES 153 7.3.1 TERPENE RESINS 153 7.4 TALL OIL FATTY ACID 159 7.4.1 TOFA-BASED ALKYDS 160 7.4.2 TOFA FOR POLYAMIDES 160 7.4.3 OXIDIZED TALL OIL 161 7.4.4 POLYURETHANES 162 7.4.5 EPOXY RESIN ESTERS 164 7.4.6 AMIDOAMINE EPOXY RESINS 166 7.5 ROSIN 167 7.5.1 ADHESIVES-POLYESTERS 168 7.5.2 COATINGS 169 7.5.3 EPOXIES 169 7.5.4 MODIFIED ROSIN POLYMERS 170 7.5.5 INSULATION 170 7.5.6 INKS 170 7.5.7 PLASTICS 171 7.5.8 PAPER SIZE 172 7.5.9 SURFACTANTS 172 7.5.10 OTHER 172 7.6 MISCELLANEOUS PRODUCTS 173 REFERENCES 178 8 PREPARATION AND APPLICATIONS OF POLYMERS WITH PENDANT FATTY CHAINS FROM PLANT OILS 181 LIANG YUAN, ZHONGKAI WANG, NATHAN M. TRENOR, AND CHUANBING TANG 8.1 INTRODUCTION 181 8.2 (METH)ACRYLATE MONOMERS PREPARATION AND POLYMERIZATION 182 8.2.1 FROM FATTY ACID METHYL ESTERS 182 8.2.2 FROM FATTY ACIDS 184 8.2.3 FROM FATTY ALCOHOLS 186 8.2.3.1 ANIONIC POLYMERIZATION 186 8.2.3.2 GROUP TRANSFER POLYMERIZATION 187 5.2.3.3 ATOM TRANSFER RADICAL POLYMERIZATION (ATRP) 187 5.2.3.4 REVERSIBLE ADDITION-FRAGMENTATION CHAIN-TRANSFER POLYMERIZATION (RAFT) 191 8.2.4 FROM N-ALKYLHYDROXYL AMIDES 191 8.3 NORBORNENE MONOMERS AND POLYMERS FOR RING OPENING METATHESIS POLYMERIZATION (ROMP) 194 8.4 2-OXAZOLINE MONOMERS FOR LIVING CATIONIC RING OPENING POLYMERIZATION 195 8.5 VINYL ETHER MONOMERS FOR CATIONIC POLYMERIZATION 200 CONTENTS \| IX 8.6 CONCLUSIONS AND OUTLOOK 203 REFERENCES 204 9 STRUCTURE-PROPERTY RELATIONSHIPS OF EPOXY THERMOSET NETWORKS FROM PHOTOINITIATED CATIONIC POLYMERIZATION OF EPOXIDIZED VEGETABLE OILS 209 ZHEQIN YANG, JANANEE NARAYANAN, MATTHEW RAVALLI, BRITTANY T. RUPP, AND CHANG Y. RYU 9.1 INTRODUCTION 209 9.2 PHOTOINITIATED CATIONIC POLYMERIZATION OF EPOXIDIZED VEGETABLE OILS 213 9.2.1 EPOXIDIZED VEGETABLE OILS (EVOS) 213 9.2.2 PHOTO-INITIATED CATIONIC POLYMERIZATION OF ESO: STRUCTURE-PROPERTY RELATIONSHIP 214 9.2.3 PHOTO-INITIATED CATIONIC POLYMERIZATION OF ELO: THICKNESS CONTROL 221 9.3 CONCLUSIONS 224 ACKNOWLEDGMENT 225 REFERENCES 225 10 BIOPOLYMERS FROM SUGARCANE AND SOYBEAN LIGNOCELLULOSIC BIOMASS 227 DELIA R. TAPIA-BLACIDO, BIANCA C. MANIGLIA, AND MILENA MARTELLI-TOSI 10.1 INTRODUCTION 227 10.2 LIGNOCELLULOSIC BIOMASS COMPOSITION AND PRETREATMENT 229 10.3 LIGNOCELLULOSIC BIOMASS FROM SOYBEAN 233 10.4 PRODUCTION OF POLYMERS FROM SOYBEAN BIOMASS 234 10.5 LIGNOCELLULOSIC BIOMASS FROM SUGARCANE 242 10.6 PRODUCTION OF POLYMERS FROM SUGARCANE BAGASSE 242 10.7 CONCLUSION AND FUTURE OUTLOOK 246 ACKNOWLEDGMENTS 247 REFERENCES 247 11 MODIFICATION OF WHEAT GLUTEN-BASED POLYMER MATERIALS BY MOLECULAR BIOMASS 255 XIAOQING ZHANG 11.1 INTRODUCTION 255 11.2 MODIFICATION OF WHEAT GLUTEN MATERIALS BY MOLECULAR BIOMASS 257 11.2.1 MODIFICATION OF WG BY NATURAL PHENOLICS 258 11.2.2 MODIFICATION BY EPOXIDIZED VEGETABLE OIL 264 11.3 BIODEGRADATION OF WHEAT GLUTEN MATERIALS MODIFIED BY BIOMASS 269 11.4 BIOMASS FILLERS FOR WG BIOCOMPOSITES 271 11.5 CONCLUSION AND FUTURE PERSPECTIVES OF WG-BASED MATERIALS 272 REFERENCES 273 12 COPOLYMERIZATION OF C1 BUILDING BLOCKS WITH EPOXIDES 279 YING-YING ZHANG ANDXING-HONG ZHANG 12.1 INTRODUCTION 279 12.2 C 0 2/EPOXIDE COPOLYMERIZATION 280 12.2.1 HETEROGENEOUS ZNCO(III) DMCC 281 12.2.1.1 STRUCTURE OF ZNCO(III) DMCC 282 12.2.1.2 C 0 2/EPOXIDE COPOLYMERIZATION VIA ZN*CO(III) DMCC CATALYSIS 286 12.2.1.3 COPOLYMERIZATION OF C 0 2 WITH BIOMASS MONOMERS 288 12.3 CS2/EPOXIDE COPOLYMERIZATION 295 12.4 COS/EPOXIDE COPOLYMERIZATION 299 12.5 PROPERTIES OF CL-BASED POLYMERS 304 12.5.1 THERMAL PROPERTY 304 12.5.2 MECHANICAL PROPERTY 306 12.5.3 BIODEGRADABILITY 306 12.5.4 OPTICAL PROPERTY 306 12.6 CONCLUSIONS AND OUTLOOK 307 REFERENCES 307 13 DOUBLE-METAL CYANIDE CATALYST DESIGN IN C02/EPOXIDE COPOLYMERIZATION 315 JOBY SEBASTIAN AND DARBHA SRINIVAS 13.1 INTRODUCTION 315 13.2 POLYCARBONATES AND THEIR SYNTHESIS METHODS 317 13.3 COPOLYMERIZATION OF C 0 2 AND EPOXIDES 318 13.4 DOUBLE-METAL CYANIDES AND THEIR STRUCTURAL VARIATION 319 13.5 METHODS OF DMC SYNTHESIS 322 13.6 FACTORS INFLUENCING CATALYTIC ACTIVITY OF DMCS 323 13.6.1 HEXACYANOMETALLATE 323 13.6.2 COMPLEXING AGENT 325 13.6.3 CO-COMPLEXING AGENT 326 13.6.4 ZINC PRECURSOR/HALIDE PRECURSOR 329 13.6.5 COBALT PRECURSOR 331 13.7 ROLE OF CO-CATALYST ON THE ACTIVITY OF DMC CATALYSTS 332 13.8 COPOLYMERIZATION IN THE PRESENCE OF HYBRID DMC CATALYSTS 334 13.9 COPOLYMERIZATION WITH NANO-LAMELLAR DMC CATALYSTS 335 13.10 EFFECT OF CRYSTALLINITY AND CRYSTAL STRUCTURE OF DMC ON COPOLYMERIZATION 337 13.11 EFFECT OF METHOD OF PREPARATION OF DMC CATALYSTS ON THEIR STRUCTURE AND COPOLYMERIZATION ACTIVITY 337 13.12 REACTION MECHANISM OF COPOLYMERIZATION 340 13.12.1 POLYMERIZATION IN THE PRESENCE OF INITIATORS 340 13.12.2 POLYMERIZATION IN THE ABSENCE OF INITIATORS 341 13.13 CONCLUSIONS 342 REFERENCES 343 INDEX 347
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genre	(DE-588)4143413-4 Aufsatzsammlung gnd-content
genre_facet	Aufsatzsammlung
id	DE-604.BV044284799
illustrated	Illustrated
indexdate	2024-07-10T07:48:43Z
institution	BVB
institution_GND	(DE-588)16179388-5
isbn	9783527340163 3527340165
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-029689077
oclc_num	988010593
open_access_boolean
owner	DE-92 DE-11 DE-703 DE-634 DE-91S DE-BY-TUM DE-83 DE-573
owner_facet	DE-92 DE-11 DE-703 DE-634 DE-91S DE-BY-TUM DE-83 DE-573
physical	xiv, 356 Seiten Illustrationen, Diagramme
publishDate	2017
publishDateSearch	2017
publishDateSort	2017
publisher	Wiley-VCH Verlag GmbH & Co. KGaA
record_format	marc
spelling	Sustainable polymers from biomass edited by Chuanbing Tang and Chang Y. Ryu Weinheim Wiley-VCH Verlag GmbH & Co. KGaA [2017] © 2017 xiv, 356 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Biomasse (DE-588)4006877-8 gnd rswk-swf Polymere (DE-588)4046699-1 gnd rswk-swf Grüne Chemie (DE-588)7563215-9 gnd rswk-swf Biochemical Engineering Biochemische Verfahrenstechnik Biopolymere Biopolymers Chemical Engineering Chemie Chemische Verfahrenstechnik Chemistry Nachhaltige u. Grüne Chemie Polymer Science & Technology Polymerwissenschaft u. -technologie Sustainable Chemistry & Green Chemistry (DE-588)4143413-4 Aufsatzsammlung gnd-content Polymere (DE-588)4046699-1 s Grüne Chemie (DE-588)7563215-9 s Biomasse (DE-588)4006877-8 s DE-604 Tang, Chuanbing (DE-588)1131279158 edt Ryu, Chang Y. (DE-588)1132359236 edt Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, ePDF 978-3-527-34017-0 Erscheint auch als Online-Ausgabe, ePub 978-3-527-34019-4 Erscheint auch als Online-Ausgabe, Mobi 978-3-527-34018-7 Erscheint auch als Online-Ausgabe, oBook 978-3-527-34020-0 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029689077&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Sustainable polymers from biomass Biomasse (DE-588)4006877-8 gnd Polymere (DE-588)4046699-1 gnd Grüne Chemie (DE-588)7563215-9 gnd
subject_GND	(DE-588)4006877-8 (DE-588)4046699-1 (DE-588)7563215-9 (DE-588)4143413-4
title	Sustainable polymers from biomass
title_auth	Sustainable polymers from biomass
title_exact_search	Sustainable polymers from biomass
title_full	Sustainable polymers from biomass edited by Chuanbing Tang and Chang Y. Ryu
title_fullStr	Sustainable polymers from biomass edited by Chuanbing Tang and Chang Y. Ryu
title_full_unstemmed	Sustainable polymers from biomass edited by Chuanbing Tang and Chang Y. Ryu
title_short	Sustainable polymers from biomass
title_sort	sustainable polymers from biomass
topic	Biomasse (DE-588)4006877-8 gnd Polymere (DE-588)4046699-1 gnd Grüne Chemie (DE-588)7563215-9 gnd
topic_facet	Biomasse Polymere Grüne Chemie Aufsatzsammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029689077&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT tangchuanbing sustainablepolymersfrombiomass AT ryuchangy sustainablepolymersfrombiomass AT wileyvch sustainablepolymersfrombiomass

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