Availability: Alkaline anion exchange membranes for fuel cells

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Other Authors:	Thomas, Jince (Editor), Schechter, Alex 1968- (Editor), Grynszpan, Flavio (Editor), Francis, Bejoy (Editor), Thomas, Sabu 1960- (Editor)
Format:	Book
Language:	English
Published:	Weinheim Wiley-VCH [2024]
Subjects:	Membranionenaustauscher Brennstoffzelle Polyelektrolyt Anion 10: Verstehen Batterien u. Brennstoffzellen Batteries & Fuel Cells CHA1: Batterien u. Brennstoffzellen Chemie Chemistry EG32: Wasserstoff, Batterien u. Brennstoffzellen Energie Energy Hydrogen, Batteries & Fuel Cells MSL0: Materialien f. Energiesysteme Materialien f. Energiesysteme Materials Science Materials for Energy Systems Materialwissenschaften Membran Wasserstoff, Batterien u. Brennstoffzellen
Links:	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-35039-1/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034913284&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
Physical Description:	xv, 432 Seiten Illustrationen
ISBN:	9783527350391

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_version_	1826318066398527488
adam_text	V CONTENTS PREFACE XIII 1 AN INTRODUCTION TO POLYMERIC ELECTROLYTE ALKALINE ANION EXCHANGE MEMBRANES 1 JINCE THOMAS, MINU ELIZABETH THOMAS, BEJOY FRANCIS, AND SABU THOMAS 1.1 INTRODUCTION 1 1.2 DIFFERENT TYPES OF ELECTROLYTES 2 1.3 WHY POLYMER ELECTROLYTES ARE IMPORTANT? 3 1.4 ANION EXCHANGE MEMBRANE (AEM) 5 1.4.1 FUNDAMENTAL CONCEPTS OF ANION EXCHANGE MEMBRANES AS POLYMER ELECTROLYTES 5 1.4.2 CLASSIFICATION OF AEM 7 1.4.3 PROS AND CONS OF AEM 8 1.4.4 APPLICATION OF AEM 9 1.5 AEMSIN FUEL CELLS 10 1.6 CONCLUSION AND OUTLOOK 11 2 HISTORICAL AND RECENT DEVELOPMENTS IN ANION EXCHANGE MEMBRANES (AEM) 15 PRIYA GOEL, PRIYABRATA MANDAL, SUJAY CHATTOPADHYAY, AND VINOD K. SHAHI 2.1 INTRODUCTION 15 2.2 FUEL CELL: CONVENTIONAL VERSUS MODERN APPROACH 16 2.3 ROLE OF AEM IN FUEL CELL TECHNOLOGY 18 2.4 PREPARATION OF AEMS 20 2.5 CHALLENGES IN EXISTING AEMS 21 2.6 RECENT ADVANCEMENT 22 2.7 MAJOR CHALLENGES 23 2.8 COMMERCIALLY AVAILABLE AEMS 28 2.9 CURRENT SCENARIO AND FUTURE MARKET 29 2.10 SUMMARY AND CONCLUDING REMARKS 30 VI CONTENTS 3 FABRICATION PROCESSES AND CHARACTERIZATION PROCEDURES OF ANION EXCHANGE MEMBRANES 37 GRACIELA C. ABUIN AND ROXANA E. COPPOLA 3.1 3.2 3.2.1 3.2.2 3.2.3 3.2.4 3.2.5 3.3 3.3.1 3.3.2 3.3.3 3.3.4 3.3.5 3.3.6 3.4 INTRODUCTION 37 FABRICATION PROCESSES OF ANION EXCHANGE MEMBRANES 39 AEM OF CATIONIC CHARGED POLYMERS 39 AEMS OF ION-SOLVATING POLYMERS 41 AEMS WITH NANOFIBERS 42 HYBRID AEMS 43 RECENT DEVELOPMENTS IN AEMS 44 CHARACTERIZATION PROCEDURES OF AEMS 46 IONIC CONDUCTIVITY 52 IEC, SWELLING RATIO, AND WATER CONTENT 53 MECHANICAL AND THERMAL PROPERTIES 54 CHEMICAL STABILITY 55 CHEMICAL COMPOSITION AND MORPHOLOGICAL CHARACTERIZATION 55 OTHER CHARACTERIZATIONS 57 CONCLUSIONS 57 4 TYPES OF POLYMERIC ELECTROLYTE ANION EXCHANGE MEMBRANES: HETEROGENEOUS AND GRAFTED MEMBRANES, INTERPENETRATING POLYMER NETWORKS AND HOMOGENEOUS MEMBRANES 67 LIANG ZHU 4.1 4.1.1 4.1.2 4.2 4.2.1 4.2.2 4.2.3 4.3 4.3.1 HETEROGENOUS ANION EXCHANGE MEMBRANES 67 ION-SOLVATING POLYMERS 67 HYBRID MEMBRANES 67 GRAFTED ANION EXCHANGE MEMBRANES 70 RADIATION-GRAFTED MEMBRANES 70 SIDE CHAIN GRAFTED MEMBRANES 72 LONG-SIDE-CHAIN GRAFTED MEMBRANES 74 INTERPENETRATING ANION EXCHANGE MEMBRANES 75 ANION EXCHANGE MEMBRANES BASED ON INTERPENETRATING POLYMER NETWORKS (IPN) 76 4.3.2 ANION EXCHANGE MEMBRANES BASED ON SEMI-INTERPENETRATING POLYMER NETWORKS (SEMI-IPN) 77 4.4 4.4.1 4.4.2 4.4.3 HOMOGENOUS MEMBRANES 78 HOMOGENOUS MEMBRANES BASED ON POLY(ARYLENE ETHER)S 79 HOMOGENOUS MEMBRANES BASED ON POLY(STYRENE)S 82 HOMOGENOUS MEMBRANES BASED ON POLY(2,6-DIMETHYL-L, 4-PHENYLENE OXIDE) 82 4.4.4 4.4.5 4.4.6 4.5 FLUORENE-CONTAINING HOMOGENOUS MEMBRANES 86 HOMOGENOUS MEMBRANES BASED ON POLYOLEFINS 86 OTHER KINDS OF HOMOGENOUS MEMBRANES 88 CONCLUSIONS 90 CONTENTS \| VII 5 PROTON EXCHANGE MEMBRANES VERSUS ANION EXCHANGE MEMBRANES 97 MARILYN M. XAVIER AND SURESH MATHEW 5.1 INTRODUCTION 97 5.2 PROTON EXCHANGE MEMBRANE (PEM) 98 5.2.1 CLASSIFICATION OF PEM MEMBRANES BASED ON THE MATERIALS OF SYNTHESIS 99 5.2.1.1 PERFLUORINATED IONOMERIC MEMBRANES 99 5.2.1.2 PARTIALLY FLUORINATED HYDROCARBON MEMBRANES 100 5.2.1.3 NON-FLUORINATED HYDROCARBON MEMBRANES 101 5.2.1.4 ACID-BASE COMPLEXES 101 5.2.2 PREPARATION METHODS OF PEM 102 5.2.3 PROTON TRANSPORT MECHANISM IN PEM 103 5.2.4 CURRENT STATE OF ART OF PEM 103 5.3 COMPARISON WITH AEM 105 5.3.1 MATERIALS USED FOR PREPARATIONS 105 5.3.2 INVESTIGATIVE METHODS AND MEASUREMENT FOR ION-EXCHANGE MEMBRANES 106 5.3.2.1 IONIC CONDUCTIVITY 106 5.3.2.2 WATER ABSORPTION OR SWELLING INDEX 107 5.3.2.3 ION-EXCHANGE CAPACITY (IEC) OF THE MEMBRANE 107 5.3.2.4 THERMAL STABILITY AND MECHANICAL STRENGTH 108 5.3.2.5 DURABILITY OF THE MEMBRANES 109 5.3.3 WATER MANAGEMENT 109 5.3.4 TRANSPORT MECHANISM 110 5.3.5 CATALYST USED IN PEMFC AND AEMFC 111 5.3.6 MEA FABRICATION 112 5.3.7 FUELS USED IN FUEL CELLS 113 5.3.8 FUEL CELL EFFICIENCY 115 5.4 CONCLUSION 115 6 TRANSPORT AND CONDUCTIVE MECHANISMS IN ANION EXCHANGE MEMBRANES 125 RAMATO A. TUFA, MISGINA T. TSEHAYE, WENJUAN ZHANG, MARCO AQUINO, SERGIO SANTORO, AND EFREM CURCIO 6.1 INTRODUCTION 125 6.2 TRANSPORT MECHANISMS OF HYDROXIDE ION IN AEMS 126 6.3 AEM STRUCTURE-TRANSPORT EFFICIENCY RELATIONSHIPS 130 6.4 ION CONDUCTIVITY MEASUREMENT 131 6.5 CARBONATION PROCESS IN AEMS 133 6.5.1 ELUCIDATING THE DYNAMICS OF CARBONATION 133 6.5.2 IMPACT OF CARBONATION ON AEM AND AEMFC 133 6.5.3 STRATEGIES TO AVOID CARBONATION OF OH - IONS 134 6.6 CONCLUSION AND OUTLOOK 137 VIII CONTENTS 7 ANION EXCHANGE MEMBRANES BASED ON QUATERNARY AMMONIUM CATIONS AND MODIFIED QUATERNARY AMMONIUM CATIONS 143 VIJAYALEKSHMI VIJAYAKUMAR AND SANG YONG NAM 7.1 7.1.1 7.2 INTRODUCTION 143 BACKGROUND OF AEMFC INVENTION 144 QUATERNARY AMMONIUM (QA)-BASED AEMS - RECENT DEVELOPMENTS AND PERFORMANCES 145 7.3 7.4 OTHER FACTORS AFFECTING PERFORMANCE OF FUEL CELLS 158 SUMMARY AND PERSPECTIVES 159 8 GUANIDINIUM CATIONS AND THEIR DERIVATIVES-BASED ANION EXCHANGE MEMBRANES 167 JIFU ZHENG, BOXIN XUE, AND SUOBO ZHANG 8.1 8.2 8.3 INTRODUCTION 167 GENERAL SYNTHETIC METHOD OF VARIOUS GUANIDINIUMS 168 DEGRADATION MECHANISM AND ALKALINE STABILITY OF GUANIDINIUM CATIONS 169 8.4 8.4.1 8.4.2 8.4.3 8.4.4 8.5 PREPARATION OF GUANIDINIUM AND THEIR DERIVATIVE-BASED AEMS 176 BENZYL-GUANIDINIUM AEMS 176 ALKYL-GUANIDINIUM AEMS 179 ARYL-GUANIDINIUM AEMS 180 OTHER GUANIDINIUM-BASED AEMS 183 PROSPECT 186 9 ANION EXCHANGE MEMBRANES BASED ON IMIDAZOLIUM AND TRIAZOLIUM CATIONS 189 DO-HYEONG KIM, VIJAYALEKSHMI VIJAYAKUMAR, AND SANG YONG NAM 9.1 9.2 9.2.1 9.2.2 9.3 9.4 INTRODUCTION 189 AEMS BASED ON IMIDAZOLIUM CATIONS 190 AEMS BASED ON IMIDAZOLIUM-TYPE IONIC LIQUIDS 191 IMIDAZOLE CONTAINING POLYMERS AND COMPOSITES 194 AEM BASED ON TRIAZOLIUM CATIONS 203 SUMMARY AND FUTURE PERSPECTIVES 204 10 RADIATION-GRAFTED AND CROSS-LINKED POLYMERS-BASED ANION EXCHANGE MEMBRANES 211 ANA LAURA G. BIONCOLLI, BIANCA P. SILVA SANTOS, AND ELISABETE I. SANTIAGO 10.1 10.2 10.3 10.3.1 10.3.2 10.3.3 10.3.4 HISTORIC OVERVIEW 211 SOURCES OF RADIATION 213 TYPES OF RADIATION-INDUCED GRAFTING 214 ABSORBED DOSE 218 DOSE RATE 218 ATMOSPHERE DURING IRRADIATION 218 TEMPERATURE DURING IRRADIATION 219 CONTENTS IX 10.4 BASE POLYMER 220 10.5 GRAFTING SOLUTION 221 10.6 PHYSICOCHEMICAL PROPERTIES OF RG-AEMS 223 10.7 CROSS-LINKING IN AEMS 224 10.7.1 PHYSICAL CROSS-LINKING 225 10.7.2 CHEMICAL CROSS-LINKING 226 10.7.2.1 CROSS-LINKING WITH DIAMINE AGENTS 226 10.7.2.2 CHEMICAL CROSS-LINKING REACTION WITH OTHER AGENTS 228 10.7.2.3 OTHER METHODS OF PRODUCING CROSS-LINKED MEMBRANES 230 10.8 CONCLUSIONS 231 11 DEGRADATION MECHANISMS OF ANION EXCHANGE MEMBRANES DUE TO ALKALI HYDROLYSIS AND RADICAL OXIDATIVE SPECIES 241 JEET SHARMA AND VAIBHAV KULSHRESTHA 11.1 INTRODUCTION 241 11.2 NECESSITY TO INVESTIGATE THE DEGRADATION MECHANISM IN AEMS 242 11.3 STRUCTURE AND DEGRADATION MECHANISM OF TAILORED ANION EXCHANGE GROUPS AND POLYMERS 243 11.3.1 ALKALINE HYDROLYSIS OF CATIONIC HEAD GROUPS 244 11.3.2 ALKALINE HYDROLYSIS OF NOVEL METALLOCENIUM BASED AEMS 263 11.3.3 ALKALINE HYDROLYSIS OF POLYMERS 266 11.3.3.1 DEGRADATION MECHANISM IN POLY(ARYLENE ETHERS) (PAES) 267 11.3.3.2 DEGRADATION MECHANISM IN FLUORINATED POLYMER 269 11.3.3.3 DEGRADATION MECHANISM IN POLY(BENZIMIDAZOLE) BASED POLYMERS 270 11.3.3.4 DEGRADATION MECHANISM IN POLY(ALKYL) AND POLY(ARENE) BASED POLYMERS 272 11.3.4 FREE RADICAL OXIDATIVE DEGRADATION OF AEM 274 11.4 PROSPECTS AND OUTLOOK 275 11.5 CONCLUSION 276 12 - COMPUTATIONAL APPROACHES TO ALKALINE ANION EXCHANGE MEMBRANES 285 MINU ELIZABETH THOMAS 12.1 INTRODUCTION 285 12.2 WHY COMPUTATIONAL STUDIES ARE IMPORTANT IN ANION EXCHANGE MEMBRANES? 286 12.3 TOOLS OF IN SILICO APPROACHES IN ANION EXCHANGE MEMBRANES 287 12.3.1 ELECTRONIC STRUCTURE METHODS IN ANION EXCHANGE MEMBRANES 288 12.3.1.1 ANALYSIS ON HOMO-LUMO ENERGIES AND MULLIKEN CHARGES 289 12.3.1.2 ANALYSIS ON ESP 292 12.3.1.3 ANALYSIS ON CHEMICAL STRUCTURE AND BONDING NATURE 294 12.3.1.4 ANALYSIS ON DEGRADATION PATHWAYS 295 12.3.2 MOLECULAR DYNAMICS IN ANION EXCHANGE MEMBRANES 297 12.3.3 CONTINUUM MODELING AND SIMULATION IN ANION EXCHANGE MEMBRANES 300 CONTENTS 12.3.4 MONTE CARLO SIMULATIONS IN ANION EXCHANGE MEMBRANES 301 12.3.5 MACHINE LEARNING IN ANION EXCHANGE MEMBRANES 301 12.4 CHALLENGES AND OUTLOOK 303 12.5 CONCLUSION 304 13 AN OVERVIEW OF COMMERCIAL AND NON-COMMERCIAL ANION EXCHANGE MEMBRANES 309 YANG ZHANG, FAN ZHANG, LIANG WU, XIAOLIN GE, AND TONGWEN XU 13.1 INTRODUCTION 309 13.1.1 CHARACTERISTICS AND EXISTING PROBLEMS OF COMMERCIAL ALKALINE ANION EXCHANGE MEMBRANES 310 13.1.1.1 FUMATECH: FUMASEP 310 13.1.1.2 TOKUYAMA: A201 310 13.1.1.3 LONOMR: AEMION 311 13.1.1.4 DIOXIDE MATERIALS: SUSTAINION 311 13.1.1.5 ORION POLYMER: ORION TM1 312 13.1.1.6 XERGY: XION-DAPPION, XION-DURION, XION-PENTION 312 13.1.1.7 VERSOGEN: PIPERLON 313 13.1.1.8 MEMBRANES INTERNATIONAL INC.: AMI 7001 314 13.1.1.9 ASAHI GLASS: SELEMION AMV 314 13.1.2 CHARACTERISTICS AND EXISTING PROBLEMS OF NON-COMMERCIAL ALKALINE ANION EXCHANGE MEMBRANE 314 13.1.3 STRATEGIES TO IMPROVE THE PROPERTIES OF AEMS 317 13.1.3.1 THE REGULATION OF MICROPHASE MORPHOLOGIES 317 13.1.3.2 CONSTRUCTING FREE VOLUMES 320 13.1.3.3 THE INTRODUCTION OF CROSS-LINKING STRUCTURES 322 13.1.3.4 OTHER PHYSICAL METHODS 324 13.1.3.5 THE DEVELOPMENT OF NOVEL CATIONIC FUNCTIONAL GROUPS AND ARYL ETHER-FREE MAIN CHAINS WITH HIGH STABILITY 329 13.2 SUMMARY AND OUTLOOKS 334 14 MEMBRANE ELECTRODE ASSEMBLY PREPARATION FOR ANION EXCHANGE MEMBRANE FUEL CELL (AEMFC): SELECTION OF IONOMERS AND HOW TO AVOID CO2 POISONING 341 WEIHONG YANG, QIUYU ZHANG, AND YI YAN 14.1 THE PREPARATION OF MEMBRANE ELECTRODE ASSEMBLY 341 14.2 SELECTION OF IONOMERS 344 14.2.1 COMMERCIAL IONOMERS 345 14.2.2 CUSTOM-MADE IONOMERS 346 14.3 EFFECT OF CO2 ON AEMFCS 348 14.3.1 EFFECT OF CO2 ON EX SITU MEASURED CONDUCTIVITY 348 14.3.2 EFFECT OF CO2 ON ELECTROCHEMICAL REACTIONS ON THE ELECTRODES 350 14.3.3 EFFECT OF CO2 ON FUEL CELL PERFORMANCE 350 14.4 STRATEGIES TO AVOID CO2 POISONING 351 CONTENTS XI 14.4.1 14.4.2 14.4.3 14.5 14.5.1 14.5.2 14.5.3 14.6 REDUCING HCO3/CO32 CONCENTRATION THROUGH SELF-PURGING 351 INCREASING THE CURRENT DENSITY TO IMPROVE THE OUTLET OF CO2 352 FILTERED THE FEEDING AIR 353 THE IMPROVEMENT OF AEMFC OUTPUT 353 ELECTRODE OPTIMIZATION 353 CATALYST OPTIMIZATION 354 OPTIMIZATION OF OPERATION CONDITIONS 354 CONCLUSIONS 355 15 APPLICATIONS OF ANION EXCHANGE MEMBRANES EXCLUDING FUEL CELLS 361 XIUQIN WANG AND ROB G.H. LAMMERTINK 15.1 15.1.1 15.1.2 15.1.3 15.2 15.3 15.3.1 15.3.2 15.3.3 15.4 15.4.1 15.4.2 15.4.3 15.5 15.5.1 15.5.2 15.5.3 15.6 15.6.1 15.6.2 15.6.3 15.7 15.7.1 15.7.2 15.7.3 15.8 15.8.1 15.8.2 15.8.3 15.9 15.10 AEMS IN ALKALINE WATER ELECTROLYSIS 361 WORKING PRINCIPLE 362 RESEARCH PROGRESS OF AEMS FOR AEMWE 363 SUMMARY AND FUTURE PERSPECTIVES 365 AEMS IN CO2 ELECTROLYSIS 366 AEMS IN REDOX FLOW BATTERIES 367 WORKING PRINCIPLE 368 RESEARCH PROGRESS OF AEMS FOR VRFBS 369 SUMMARY AND FUTURE PERSPECTIVES 371 AEMS IN ALKALI METAL-AIR BATTERIES 371 WORKING PRINCIPLE 372 RESEARCH PROGRESS OF AEMS FOR RECHARGEABLE ZABS 372 SUMMARY AND FUTURE PERSPECTIVES 373 AEMS IN REVERSE ELECTRODIALYSIS 374 WORKING PRINCIPLE 374 RESEARCH PROGRESS OF AEMS FOR RED 375 SUMMARY AND FUTURE PERSPECTIVES 376 AEMS IN ELECTRODIALYSIS 376 WORKING PRINCIPLE 376 RESEARCH PROGRESS OF AEMS FOR ED 377 SUMMARY AND FUTURE PERSPECTIVES 378 AEMS IN DIFFUSION DIALYSIS 378 WORKING PRINCIPLE 379 RESEARCH PROGRESS OF AEMS FOR DD 379 SUMMARY AND FUTURE PERSPECTIVES 380 AEMS IN MICROBIAL FUEL CELLS 380 WORKING PRINCIPLE 381 RESEARCH PROGRESS AEMS FOR MFCS 381 SUMMARY AND FUTURE PERSPECTIVES 382 AEMS IN OTHER APPLICATIONS 382 SUMMARY 383 ABBREVIATIONS 383 XII CONTENTS 16 RESEARCH CHALLENGES AND FUTURE DIRECTIONS ON ANION EXCHANGE MEMBRANES FOR FUEL CELLS 393 JINCE THOMAS, PARTHIBAN VELAYUDHAM, RAMESH K. SINGH, SABU THOMAS, ALEX SCHECHTER, AND FLAVIO GRYNSZPAN 16.1 PRELUDE TO ANION EXCHANGE MEMBRANES 393 16.2 PROGRESS IN AEM DEVELOPMENT 395 16.2.1 POLYARYLENE-BASED AEMS 396 16.2.2 POLYETHYLENE-BASED AEMS 397 16.2.3 MAIN CHAIN-BASED AEMS 399 16.2.4 BLOCK COPOLYMER BASED AEMS 400 16.2.5 LONG SIDE-CHAIN AEMS 401 16.2.6 CROSS-LINKED AEMS 401 16.2.7 ORGANIC-INORGANIC COMPOSITE AEMS 403 16.2.8 AEMS BASED ON CATIONIC FUNCTIONAL GROUPS 404 16.2.9 CHALLENGES DEVELOPING LONG-LASTING AEMS 404 16.2.10 CHEMICAL STABILITY 405 16.2.10.1 ALKALINE STABILITY 405 16.2.10.2 OXIDATIVE STABILITY 406 16.2.11 IONIC CONDUCTIVITY 406 16.2.12 MECHANICAL AND DIMENSIONAL STABILITY 407 16.3 DURABILITY OF ANION EXCHANGE MEMBRANE FUEL CELLS 408 16.3.1 WATER MANAGEMENT 408 16.3.2 CARBONATION EFFECT 409 16.3.3 MEMBRANE-ELECTRODE INTERFACE 410 16.4 FUTURE DIRECTIONS 411 16.4.1 EXPANSION OF AEM DEVELOPMENT 411 16.4.1.1 IONOMER DEVELOPMENT 414 16.4.1.2 CATALYST DEVELOPMENT 415 16.4.1.3 MEMBRANE ELECTRODE ASSEMBLY DEVELOPMENTS 416 16.5 CONCLUDING REMARKS 416 INDEX 425
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discipline	Chemie / Pharmazie Elektrotechnik / Elektronik / Nachrichtentechnik
format	Book
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id	DE-604.BV049568029
illustrated	Illustrated
indexdate	2025-03-11T17:03:53Z
institution	BVB
institution_GND	(DE-588)16179388-5
isbn	9783527350391
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-034913284
oclc_num	1407050564
open_access_boolean
owner	DE-29T DE-703 DE-11
owner_facet	DE-29T DE-703 DE-11
physical	xv, 432 Seiten Illustrationen
publishDate	2024
publishDateSearch	2024
publishDateSort	2024
publisher	Wiley-VCH
record_format	marc
spelling	Alkaline anion exchange membranes for fuel cells from tailored materials to novel applications edited by Jince Thomas, Alex Schechter, Flavio Grynszpan, Bejoy Francis, and Sabu Thomas Weinheim Wiley-VCH [2024] © 2024 xv, 432 Seiten Illustrationen txt rdacontent n rdamedia nc rdacarrier Membranionenaustauscher (DE-588)4137317-0 gnd rswk-swf Brennstoffzelle (DE-588)4008195-3 gnd rswk-swf Polyelektrolyt (DE-588)4175165-6 gnd rswk-swf Anion (DE-588)4130938-8 gnd rswk-swf 10: Verstehen Batterien u. Brennstoffzellen Batteries & Fuel Cells Brennstoffzelle CHA1: Batterien u. Brennstoffzellen Chemie Chemistry EG32: Wasserstoff, Batterien u. Brennstoffzellen Energie Energy Hydrogen, Batteries & Fuel Cells MSL0: Materialien f. Energiesysteme Materialien f. Energiesysteme Materials Science Materials for Energy Systems Materialwissenschaften Membran Wasserstoff, Batterien u. Brennstoffzellen Brennstoffzelle (DE-588)4008195-3 s Membranionenaustauscher (DE-588)4137317-0 s Anion (DE-588)4130938-8 s Polyelektrolyt (DE-588)4175165-6 s DE-604 Thomas, Jince (DE-588)1346509948 edt Schechter, Alex 1968- (DE-588)134658429X edt Grynszpan, Flavio (DE-588)1347156399 edt Francis, Bejoy (DE-588)1347159819 edt Thomas, Sabu 1960- (DE-588)1021317551 edt Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-527-83760-1 Erscheint auch als Online-Ausgabe, EPUB 978-3-527-83759-5 Erscheint auch als Online-Ausgabe, oBook 978-3-527-83758-8 X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-35039-1/ DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034913284&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Alkaline anion exchange membranes for fuel cells from tailored materials to novel applications Membranionenaustauscher (DE-588)4137317-0 gnd Brennstoffzelle (DE-588)4008195-3 gnd Polyelektrolyt (DE-588)4175165-6 gnd Anion (DE-588)4130938-8 gnd
subject_GND	(DE-588)4137317-0 (DE-588)4008195-3 (DE-588)4175165-6 (DE-588)4130938-8
title	Alkaline anion exchange membranes for fuel cells from tailored materials to novel applications
title_auth	Alkaline anion exchange membranes for fuel cells from tailored materials to novel applications
title_exact_search	Alkaline anion exchange membranes for fuel cells from tailored materials to novel applications
title_full	Alkaline anion exchange membranes for fuel cells from tailored materials to novel applications edited by Jince Thomas, Alex Schechter, Flavio Grynszpan, Bejoy Francis, and Sabu Thomas
title_fullStr	Alkaline anion exchange membranes for fuel cells from tailored materials to novel applications edited by Jince Thomas, Alex Schechter, Flavio Grynszpan, Bejoy Francis, and Sabu Thomas
title_full_unstemmed	Alkaline anion exchange membranes for fuel cells from tailored materials to novel applications edited by Jince Thomas, Alex Schechter, Flavio Grynszpan, Bejoy Francis, and Sabu Thomas
title_short	Alkaline anion exchange membranes for fuel cells
title_sort	alkaline anion exchange membranes for fuel cells from tailored materials to novel applications
title_sub	from tailored materials to novel applications
topic	Membranionenaustauscher (DE-588)4137317-0 gnd Brennstoffzelle (DE-588)4008195-3 gnd Polyelektrolyt (DE-588)4175165-6 gnd Anion (DE-588)4130938-8 gnd
topic_facet	Membranionenaustauscher Brennstoffzelle Polyelektrolyt Anion
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-35039-1/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034913284&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT thomasjince alkalineanionexchangemembranesforfuelcellsfromtailoredmaterialstonovelapplications AT schechteralex alkalineanionexchangemembranesforfuelcellsfromtailoredmaterialstonovelapplications AT grynszpanflavio alkalineanionexchangemembranesforfuelcellsfromtailoredmaterialstonovelapplications AT francisbejoy alkalineanionexchangemembranesforfuelcellsfromtailoredmaterialstonovelapplications AT thomassabu alkalineanionexchangemembranesforfuelcellsfromtailoredmaterialstonovelapplications AT wileyvch alkalineanionexchangemembranesforfuelcellsfromtailoredmaterialstonovelapplications

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