Verfügbarkeit: Electrocatalysis of direct methanol fuel cells

Electrocatalysis of direct methanol fuel cells: from fundamentals to applications

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim WILEY-VCH 2009
Schlagworte:	Electrocatalysis Fuel cells Methanol as fuel Elektrokatalyse Methanolzelle
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XXII, 582 S. Ill., graph. Darst.
ISBN:	9783527323777

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adam_text	CONTENTS PREFACE XV LIST OF CONTRIBUTORS XIX 1 DIRECT METHANOL FUEL CELLS: HISTORY, STATUS AND PERSPECTIVES 1 ANTONINO SALVATORE ARICO, VINCENZO BAGLIO, AND VINCENZO ANTONUCCI 1.1 INTRODUCTION 1 1.2 CONCEPT OF DIRECT METHANOL FUEL CELLS 2 1.2.1 PRINCIPLES OF OPERATION 2 1.2.1.1 DMFC COMPONENTS 2 1.2.1.2 DMFC OPERATION MODE 3 1.2.1.3 FUEL CELL PROCESS 3 1.2.2 PERFORMANCE, EFFICIENCY AND ENERGY DENSITY 4 1.2.2.1 POLARIZATION CURVES AND PERFORMANCE 4 1.2.2.2 FUEL UTILIZATION 5 1.2.2.3 CATHODE OPERATING CONDITIONS 7 1.2.2.4 HEAT PRODUCTION 8 1.2.2.5 CELL EFFICIENCY 9 1.2.2.6 ENERGY DENSITY 9 1.3 HISTORICAL ASPECTS OF DIRECT METHANOL FUEL CELL DEVELOPMENT AND STATE-OF-THE-ART 10 1.3.1 HISTORICAL DEVELOPMENT OF METHANOL OXIDATION CATALYSTS 10 1.3.2 STATUS OF KNOWLEDGE OF METHANOL OXIDATION PROCESS AND STATE-OF-THE-ART ANODE CATALYSTS 14 1.3.2.1 OXIDATION MECHANISM 14 1.3.2.2 PT-RU CATALYSTS 25 1.3.2.3 ALTERNATIVE ANODE FORMULATIONS 19 1.3.2.4 PRACTICAL ANODE CATALYSTS 19 1.3.2.5 ANODE CATALYSTS FOR ALKALINE DMFC SYSTEMS 20 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/993261299 DIGITALISIERT DURCH VI CONTENTS 1.3.4.2 PROTON CONDUCTING MEMBRANES 24 1.3.4.3 MEMBRANES FOR HIGH TEMPERATURE APPLICATIONS 26 1.3.4.4 ALKALINE MEMBRANES 29 1.3.4.5 EFFECTS OF CROSSOVER ON DMFC PERFORMANCE AND EFFICIENCY 32 1.3.5 HISTORICA! DEVELOPMENT OF OXYGEN ELECTROREDUCTION IN DMFCS 33 1.3.6 STATUS OF KNOWLEDGE OF OXYGEN REDUCTION ELECTROCATALYSIS AND STATE-OF-THE-ART CATHODE CATALYSTS 33 1.3.6.1 OXYGEN REDUCTION PROCESS 33 1.3.6.2 PT-BASED CATALYSTS AND NON-NOBLE METAL ELECTROCATALYSTS 35 1.3.6.3 ALTERNATIVE CATHODE CATALYSTS 37 1.3.7 DMFC POWER SOURCES IN THE 'PRE-1990 ERA' 39 1.4 CURRENT STATUS OF DMFC TECHNOLOGY FOR DIFFERENT FIELDS OF APPLICATION 40 1.4.1 PORTABLE POWER SOURCES 40 1.4.2 TRANSPORTATION 53 1.4.3 TECHNOLOGY DEVELOPMENT 60 1.4.3.1 DMFC TECHNOLOGY 60 1.4.3.2 CATALYST PREPARATION 61 1.4.3.3 ELECTRODE MANUFACTURING AND MEMBRANE ELECTRODE ASSEMBLIES MEMBRANE ELECTRODE ASSEMBLY (MEAS) 61 1.4.3.4 STACK HARDWARE AND DESIGN 62 1.4.3.5 DMFC SYSTEMS 64 1.5 PERSPECTIVES OF DIRECT METHANOL FUEL CELLS AND TECHNO-ECONOMICA CONTENTS VII 2.4.2.3 NANOPOROUS PLATINUM I02 2.4.2.4 HOLLOW PLATINUM NANOCHANNELS 102 2.4.2.5 BIMETALLIC CLUSTERS 103 2.4.3 ELECTROCHEMICAL SYNTHESIS 104 2.4.3.1 SPHERICAL PLATINUM CLUSTERS 204 2.4.3.2 NANOPOROUS PLATINUM 205 2.4.3.3 TETRAHEXAHEDRAL PLATINUM NANOSTRUCTURES 206 2.5 CONCLUSIONS 208 REFERENCES 220 3 ELECTROCATALYST CHARACTERIZATION AND ACTIVITY VALIDATION - FUNDAMENTALS AND METHODS 115 LOKA SUBRAMANYAM SARMA, FADLILATUL TAUFANY, AND BING-JOE HWANG 3.1 INTRODUCTION 2 25 3.2 DIRECT METHANOL FUEL CELLS - ROLE OF ELECTROCATALYSTS 2 27 3.2.1 ROLE OF ANODE ELECTROCATALYSTS - METHANOL OXIDATION REACTION (MOR) 228 3.2.2 ROLE OF CATHODE ELECTROCATALYSTS - OXYGEN REDUCTION REACTION (ORR) 2 29 3.3 CHARACTERIZATION TECHNIQUES FOR ANODE AND CATHODE CATALYSTS 221 3.3.1 FUNDAMENTAL ASPECTS 222 3.3.2 EVALUATION OF CATALYST CRYSTALLITE SIZE, ELEMENTAL COMPOSITION, MORPHOLOGY, DISPERSION 122 3.3.2.1 X-RAY DIFFRACTION (XRD) 222 3.3.2.2 TRANSMISSION ELECTRON MICROSCOPY (TEM) 224 3.3.2.3 SCANNING ELECTRON MICROSCOPY (SEM) 125 3.3.2.4 ATOMIC FORCE MICROSCOPY (AFM) 225 3.3.2.5 ENERGY DISPERSIVE X-RAY SPECTROSCOPY (EDS/EDX) 125 3.3.3 ELUCIDATION OF NANOSTRUCTURAL CHARACTERISTICS OF ELECTROCATALYSTS - ALLOYIN VILI CONTENTS 3.4.1.2 STATE OF THE PT-BASED CATALYSTS 137 3.4.1.3 QUALITATIVE INDICATOR FOR THE ACTIVITY OF PT-BASED CATALYSTS TOWARDS ORR 139 3.4.1.4 QUALITATIVE INDICATOR FOR THE ACTIVITY OF PT-BASED CATALYSTS TOWARDS MOR 139 3.4.1.5 REVERSIBILITY OF H A D S /DES REACTION AND ROUGHNESS FACTOR (RF) OF PT-BASED CATALYSTS 140 3.4.1.6 ELECTROCHEMICAL ACTIVE SURFACE AREA (ECASA) AND PARTICLE SIZE OF PT-BASED CATALYSTS 240 3.4.2 ADSORPTIVE CO-STRIPPING VOLTAMMETRY (CO ADS -SV) 141 3.4.3 UNDERPOTENTIAL DEPOSITION (UPD) 143 3.4.3.1 SURFACE COMPOSITION OF PT-BASED CATALYSTS THROUGH THE CU-UPD METHOD 145 3.4.4 ROTATING DISK ELECTRODE (RDE) 146 3.4.5 ROTATING RING-DISK ELECTRODE (RRDE) METHOD 148 3.4.6 LINEAR SWEEP VOLTAMMETRY (LSV) 149 3.5 CONCLUSIONS AND OUTLOOK 155 REFERENCES 256 4 COMBINATORIAL AND HIGH THROUGHPUT SCREENING OF DMFC ELECTROCATALYSTS 165 RONGZHONG JIANG AND DERYN CHU 4.1 INTRODUCTION 165 4.2 COMMON PROCEDURES FOR THE DEVELOPMENT OF DMFC CATALYSTS 268 4. CONTENTS IX 4.8 CHALLENGE AND PERSPECTIVE 1 90 REFERENCES 2 93 5 STATE-OF-THE-ART ELECTROCATALYSTS FOR DIRECT METHANOL FUEL CELLS 297 HANWEI LEI, PAOLINA ATANASSOVA, YIPENG SUN, AND BERISLAV BLIZANAC 5.1 INTRODUCTION 297 5.2 ELECTROCATALYSIS AND ELECTROCATALYSTS FOR DMFC 298 5.2.1 ELECTROCATALYSIS FOR METHANOL OXIDATION 298 5.2.2 ELECTROCATALYST DEVELOPMENT 199 5.2.3 SPRAY CONVERSION REACTION PLATFORM FOR ELECTROCATALYST MANUFACTURING 202 5.3 DMFC ELECTROCATALYST CHARACTERIZATION AND EVALUATION 203 5.3.1 PHYSICAL CHARACTERIZATION 204 5.3.2 ELECTROCHEMICAL EVALUATION 208 5.3.2.1 THIN FILM ROTATING DISC ELECTRODE (TFRDE) CATALYST CHARACTERIZATION 208 5.3.2.2 FUEL CELL EVALUATION 210 5.3.3 DURABILITY STUDY 212 5.4 DMFC PERFORMANCE ADVANCEMENT VIA MEA DESIGN 215 5.4.1 ELECTROCATALYST LAYER DESIGN 225 5.4.2 HYDROCARBON MEMBRANE FOR DMFC PERFORMANCE IMPROVEMENT 227 5.4.3 OTHER ASPECTS OF DMFC CATALYST DEVELOPMENT 220 5.5 PROSPECTS FOR DMFC 222 5.6 CONCLUSIONS 222 REFERENCE CONTENTS 6.5 STABILITY OF PT-RU CATALYSTS IN DMFC ENVIRONMENT 248 6.6 CONCLUSIONS 250 REFERENCES 251 7 METHANOL-TOLERANT CATHODE CATALYSTS FOR DMFC 257 CLAUDE LAMY, CHRISTOPHE COUTANCEAU, AND NICOLAS ALONSO-VANTE 7.1 INTRODUCTION 257 7.2 THERMODYNAMICS AND KINETICS OF THE OXYGEN REDUCTION REACTION (ORR) 258 7.2.1 THE ORR AT A PLATINUM ELECTRODE IN A DMFC 258 7.2.2 CONCEPTS FOR NOVEL OXYGEN REDUCTION ELECTROCATALYSTS 261 7.3 EXPERIMENTAL DETAILS 264 7.3.1 DETERMINATION OF THE METHANOL CROSSOVER OF PROTON EXCHANGE MEMBRANES 264 7.3.1.1 EXPERIMENTAL PROCEDURES 264 7.3.1.2 RESULTS 266 7.3.2 ELECTROCHEMICAL MEASUREMENTS (VOLTAMMETRY, RDE, RRDE, ETC.) 269 7.3.2.1 EXPERIMENTAL SET-UP 269 7.3.2.2 ANALYSIS OF THE DATA 269 7.4 SYNTHESIS AND CHARACTERIZATIONS OF NANOSTRUCTURED CATALYSTS FOR THE ORR 272 7A.I PLATINUM-BASED CATALYSTS AND ELECTRODES 272 7.4.1.1 SYNTHESIS OF PLATINUM-BASED CATALYSTS BY THE CARBONYL COMPLEX ROUTE 273 7.4.1.2 SYNTHESIS OF PLATINUM-BASED CATALYSTS BY THE COLLOIDAL ROUTE 273 7.4.1. CONTENTS XI 7.6 SUMMARY AND OUTLOOK 306 REFERENCES 308 8 CARBON NANOTUBE-SUPPORTED CATALYSTS FOR THE DIRECT METHANOL FUEL CELL 315 CHEN-HAO WANG, LI-CHYONG CHEN, AND KUEI-HSIEN CHEN 8.1 INTRODUCTION 325 8.2 PREPARATION OF CARBON NANOTUBE-SUPPORTED CATALYSTS 316 8.2.1 FUNCTIONALIZATION OF CARBON NANOTUBES 316 8.2.2 POLYMER-MODIFIED CNTS 317 8.2.3 IMPREGNATION METHOD 318 8.2.4 COLLOIDAL METHOD 322 8.2.5 ELECTRODEPOSITION METHOD 323 8.3 CHARACTERISTICS OF THE CARBON NANOTUBE ELECTRODE 325 8.3.1 ELECTROCHEMICAL BEHAVIOR OF THE CNT ELECTRODE 325 8.3.2 DURABILITY OF THE CNT ELECTRODE 329 8.4 ELECTROCHEMICAL BEHAVIOR OF CARBON NANOTUBE-SUPPORTED CATALYSTS 332 8.4.1 METHANOL OXIDATION REACTION 331 8.4.2 OXYGEN REDUCTION REACTION 337 8.4.3 ELECTROCHEMICAL IMPEDANCE ANALYSIS 340 8.5 DIRECT GROWTH OF CARBON NANOTUBES AS CATALYST SUPPORTS 341 8.5.1 DIRECT GROWTH OF CNTS ON CARBON CLOTH (CNT-CC) 342 8.5.2 APPEARANCE OF CNT-CC-SUPPORTED CATALYSTS 344 8.5. XII CONTENTS 9.5 SUMMARY AND PROSPECT 373 REFERENCES 375 10 PROTON EXCHANGE MEMBRANES FOR DIRECT METHANOL FUEL CELLS 379 DAE SIK KIM, MICHAEL D. CUIVER, AND YU SEUNG KIM 10.1 INTRODUCTION 379 10.2 SYNTHESIS OF POLYMER ELECTROLYTE MEMBRANES FOR DMFC 380 10.2.1 SYNTHESIS AND PROPERTIES OF PEMS CONTAINING ALIPHATIC POLYMERS 380 10.2.2 SYNTHESIS OF SULFONATED POLY(ARYL ETHER) COPOLYMERS 385 10.2.2.1 POST-SULFONATION OF POLYMERS 385 10.2.2.2 DIRECT COPOLYMERIZATION OF SULFONATED MONOMERS 388 10.2.2.3 OTHER SYNTHETIC STRATEGIES: INTRODUCING SULFONIC ACID GROUPS 397 10.2.2.4 PROPERTIES OF SULFONATED POLY(ARYLENE ETHER) COPOLYMERS 402 10.2.3 SINGLE CELL PERFORMANCES 403 10.3 CONCLUSIONS 412 REFERENCES 412 11 FABRICATION AND OPTIMIZATION OF DMFC CATALYST LAYERS AND MEMBRANE ELECTRODE ASSEMBLIES 417 LIANG MA, YUNJIE HUANG, LIGANG FENG, WEI XING, ANDJIUJUN ZHANG 11.1 INTRODUCTION 417 11.2 COMPONENTS FOR DMFC CATALYST LAYER OPTIMIZATION 419 CONTENTS XIII 12.2.2 BASIC ASSUMPTIONS 452 12.2.3 THROUGH-PLANE RELATIONS 453 12.2.4 EQUATIONS ALONG THE CHANNEL 454 12.2.5 LARGE METHANOL STOICHIOMETRY, SMALL CURRENT 456 12.3 THE BIFUNCTIONAL REGIME OF DMFC OPERATION 459 12.3.1 EXPERIMENTAL 459 12.3.2 EXPERIMENTAL RESULTS 461 12.3.3 POLARIZATION CURVES AT CONSTANT OXYGEN STOICHIOMETRY 462 12.3.4 CRITICAL AIR FLOW RATE 464 12.4 DIRECT METHANOL-HYDROGEN FUEL CELLS (DMHFCS) 466 12.4.1 EXPERIMENT 466 12.4.2 DMHFC: THE MECHANISM OF FUNCTIONING 470 12.4.2.1 POTENTIALS ACROSS THE CELL 470 12.4.2.2 POTENTIALS ALONG THE CHANNEL 471 12.4.2.3 POTENTIALS IN THE GALVANIC DOMAIN 473 12.4.2.4 THE TRANSITION REGION: HYDROGEN CELL 474 12.5 BIFUNCTIONAL ACTIVATION OF DMFC 476 12.5.1 SINGLE CHANNEL CELL 476 12.5.2 ACTIVATION OF SQUARE-SHAPED CELLS 480 12.6 CONCLUSIONS 482 12.7 LIST OF SYMBOLS 483 12.7.1 SUPERSCRIPTS 484 12.7.2 SUBSCRIPTS 484 XIV CONTENTS 13.6.1 ANION EXCHANGE MEMBRANE FOR METHANOL FUEL CELLS 511 13.6.2 DIRECT METHANOL ALKALINE MEMBRANE FUEL CELL PERFORMANCE 523 13.6.3 MEMBRANELESS FUEL CELL 527 13.7 ALKALINE FUEL CELLS WITH OTHER DIRECT LIQUID FUELS 518 13.8 CONCLUSIONS 520 REFERENCES 521 14 ELECTROCATALYSIS IN OTHER DIRECT LIQUID FUEL CELLS 527 SHARON L. BLAIR AND WAI LUNG (SIMON) LAW 14.1 INTRODUCTION 527 14.1.1 FUEL CHARACTERISTICS AND THEORETICAL COMPARISON OF VARIOUS FUELS 527 14.2 ELECTROCATALYSIS OF DIRECT FORMIC ACID FUEL CELLS 528 14.2.2 ANODE CATALYSTS FOR DFAFCS 530 14.2.2.1 PT-BASED ANODE CATALYSTS 531 14.2.2.2 ALTERNATIVE PT MODIFIERS 536 14.2.2.3 PD-BASED ANODE CATALYSTS 536 14.2.3 CATHODE CATALYSTS FOR DFAFCS 541 14.2.4 DIRECT FORMIC ACID FUEL CELL PERFORMANCE 541 14.2.5 SUMMARY OF ELECTROCATALYSIS IN DFAFCS 545 14.3 ELECTROCATALYSIS OF DIRECT ETHANOL FUEL CELLS 545 14.3.1 ANODE CATALYSTS FOR DEFCS 546 14.3.1.1 BINARY CATALYSTS 547 14.3.1.2 TERNARY CATALYSTS 549
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spelling	Electrocatalysis of direct methanol fuel cells from fundamentals to applications ed. by Hansan Liu ... Weinheim WILEY-VCH 2009 XXII, 582 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Electrocatalysis Fuel cells Methanol as fuel Elektrokatalyse (DE-588)4151819-6 gnd rswk-swf Methanolzelle (DE-588)4817944-9 gnd rswk-swf Methanolzelle (DE-588)4817944-9 s Elektrokatalyse (DE-588)4151819-6 s DE-604 Liu, Hansan Sonstige (DE-588)139370234 oth text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3261154&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018662681&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Electrocatalysis of direct methanol fuel cells from fundamentals to applications Electrocatalysis Fuel cells Methanol as fuel Elektrokatalyse (DE-588)4151819-6 gnd Methanolzelle (DE-588)4817944-9 gnd
subject_GND	(DE-588)4151819-6 (DE-588)4817944-9
title	Electrocatalysis of direct methanol fuel cells from fundamentals to applications
title_auth	Electrocatalysis of direct methanol fuel cells from fundamentals to applications
title_exact_search	Electrocatalysis of direct methanol fuel cells from fundamentals to applications
title_full	Electrocatalysis of direct methanol fuel cells from fundamentals to applications ed. by Hansan Liu ...
title_fullStr	Electrocatalysis of direct methanol fuel cells from fundamentals to applications ed. by Hansan Liu ...
title_full_unstemmed	Electrocatalysis of direct methanol fuel cells from fundamentals to applications ed. by Hansan Liu ...
title_short	Electrocatalysis of direct methanol fuel cells
title_sort	electrocatalysis of direct methanol fuel cells from fundamentals to applications
title_sub	from fundamentals to applications
topic	Electrocatalysis Fuel cells Methanol as fuel Elektrokatalyse (DE-588)4151819-6 gnd Methanolzelle (DE-588)4817944-9 gnd
topic_facet	Electrocatalysis Fuel cells Methanol as fuel Elektrokatalyse Methanolzelle
url	http://deposit.dnb.de/cgi-bin/dokserv?id=3261154&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018662681&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT liuhansan electrocatalysisofdirectmethanolfuelcellsfromfundamentalstoapplications

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