Verfügbarkeit: Electrodeposition from ionic liquids

Electrodeposition from ionic liquids:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH-Verl. 2008
Schlagworte:	Electrochemistry Ionic solutions Galvanische Abscheidung Elektrolytlösung
Online-Zugang:	Inhaltstext Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XXII, 387 S. Ill., graph. Darst. 25 cm
ISBN:	9783527315659

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adam_text	ELECTRODEPOSITION FROM LONIC LIQUIDS EDITED BY FRANK ENDRES, DOUGLAS MACFARLANE, AND ANDREW ABBOTT WILEY- VCH WILEY-VCH VERLAG GMBH & CO. KGAA CONTENTS PREFACE IX FOREWORD XIII LIST OF CONTRIBUTORS XV LIST OF ABBREVIATIONS XIX 1 WHY USE LONIC LIQUIDS FOR ELECTRODEPOSITION? 1 ANDREW P. ABBOTT, LAN DALRYMPLE, FRANK ENDRES, AND DOUGLAS R. MACFARLANE 1.1 NON-AQUEOUS SOLUTIONS 3 1.2 LONIC FLUIDS 3 1.3 WHAT IS AN LONIC LIQUID? 4 1.4 TECHNOLOGICAL POTENTIAL OF LONIC LIQUIDS 6 1.5 CONCLUDING REMARKS 12 REFERENCES 12 2 SYNTHESISOF LONIC LIQUIDS 15 TOM BEYERSDORFF, THOMAS J. S. SCHUBERT, URS WELZ-BIERMANN, WILL PITNER, ANDREW P. ABBOTT, KATYJ. MCKENZIE, AND KARL S. RYDER 2.1 SYNTHESIS OF CHLOROALUMINATE LONIC LIQUIDS 15 2.2 AIR- AND WATER-STABLE LONIC LIQUIDS 21 2.3 EUTECTIC-BASED LONIC LIQUIDS 31 REFERENCES 42 R~ 3 PHYSICAL PROPERTIES OF LONIC LIQUIDS FOR ELECTROCHEMICAL APPLICATIONS 47 HIROYUKI OHNO 3.1 INTRODUCTION 47 - , 3.2 THERMAL PROPERTIES 47 3.3 VISCOSITY 54 3.4 DENSITY 55 3.5 REFRACTIVE INDEX 56 3.6 POLARITY 58 3.7 SOLUBILITYOFMETALSALTS 64 ELECTRODEPOSITION JROM LONIC LIQUIDS. EDITED BY F. ENDRES, D. MACFARLANE, A. ABBOTT COPYRIGHT 2008 WILEY-VCH VERLAG GMBH & CO. KGAA, WEINHEIM ISBN: 978-3-527-31565-9 CONTENTS 3.8 ELECTROCHEMICAL PROPERTIES 66 3.9 CONCLUSION AND FUTURE PROSPECTS 77 ACKNOWLEDGEMENT 77 REFERENCES 78 4 ELECTRODEPOSITION OF METALS 83 THOMAS SCHUBERT, SHERIFZEIN, EL ABEDIN, ANDREW P. ABBOTT, KATYJ. MCKENZIE, KARL S. RYDER, AND FRANK ENDRES 4.1 ELECTRODEPOSITION IN ALCLSS-BASED LONIC LIQUIDS 84 4.2 ELECTRODEPOSITION OF METALS IN AIR- AND WATER-STABLE LONIC LIQUIDS 92 4.3 DEPOSITION OF METALS FROM NON-CHLOROALUMINATE EUTECTIC MIXTURES 103 4.4 TROUBLESOME ASPECTS 114 REFERENCES 120 5 ELECTRODEPOSITION OF ALLOYS 125 I.-WEN SUN, AND PO-YU CHEN 5.1 INTRODUCTION 125 5.2 ELECTRODEPOSITION OF AL-CONTAINING ALLOYS FROM CHLOROALUMINATE LONIC LIQUIDS 126 5.3 ELECTRODEPOSITION OF ZN-CONTAINING ALLOYS FROM CHLOROZINCATE LONIC LIQUIDS 132 5.4 FABRICATION OF A POROUS METAL SURFACE BY ELECTROCHEMICAL AUOYING AND DE-ALLOYING 137 N - 5.5 NB-SN 139 5.6 AIR- AND WATER-STABLE LONIC LIQUIDS 140 5.7 SUMMARY 145 REFERENCES 145 6 ELECTRODEPOSITION OF SEMICONDUCTORS IN LONIC LIQUIDS 147 NATALIA BORISENKO, SHERIFZEIN EL ABEDIN, AND FRANK ENDRES 6.1 INTRODUCTION 147 6.2 GALLIUM ARSENIDE 149 6.3 INDIUM ANTIMONIDE 149 6.4 ALUMINUM ANTIMONIDE 150 6.5 ZINC TELLURIDE 150 6.6 CADMIUM TELLURIDE 151 6.7 GERMANIUM 151 6.8 SILICON 155 6.9 GREY SELENIUM 160 6.10 CONCLUSIONS 164 REFERENCES 164 7 CONDUCTING POLYMERS 167 JENNIFER M. PRINGLE, MARIA FORSYTH, AND DOUGLAS R. MACFARLANE 7.1 INTRODUCTION 167 7.2 ELECTROPOLYMERIZATION - GENERAL EXPERIMENTAL TECHNIQUES 171 CONTENTS I VII 7.3 SYNTHESISOFCONDUCTING POLYMERS 177 7.4 CHARACTERIZATION 191 7.5 FUTURE DIRECTIONS 203 7.6 CONCLUSIONS 207 REFERENCES 208 8 NANOSTRUCTURED METALS AND ALLOYS DEPOSITED FROM LONIC LIQUIDS 213 ROLFHEMPELMARW, AND HARALD NATTER 8.1 INTRODUCTION 213 8.2 PULSED ELECTRODEPOSITION FROM AQUEOUS ELECTROLYTES 215 8.3 SPECIAL FEATURES OF LONIC LIQUIDS AS ELECTROLYTES 220 8.4 NANOCRYSTALLINE METALS AND ALLOYS FROM CHLOROMETALLATE-BASED LONIC LIQUIDS 222 8.5 NANOCRYSTALLINE METALS FROM AIR- AND WATER-STABLE LONIC LIQUIDS 227 8.6 CONCLUSION AND OUTLOOK 234 ACKNOWLEDGEMENT 235 REFERENCES 235 9 ELECTRODEPOSITION ON THE NANOMETER SCALE: IN SITU SCANNING TUNNELING MICROSCOPY 239 FRANK ENDRES, AND SHERIFZEIN EL ABEDIN 9.1 INTRODUCTION 239 9.2 IN SITU STM IN [PY M ] TFSA 241 9.3 ELECTRODEPOSITION OF ALUMINUM 245 9.4 ELECTRODEPOSITION OF TANTALUM 250 9.5 ELECTRODEPOSITION OF POLY(P-PHENYLENE) 252 9.6 SUMMARY 256 REFERENCES 256 10 PLASMA ELECTROCHEMISTRY WITH LONIC LIQUIDS 259 JUERGEN JANEK, MARCUS ROHNKE, MANUEL POELLETH, AND SEBASTIAN A. MEISS 10.1 INTRODUCTION 259 10.2 CONCEPTS AND PRINCIPLES 260 10.3 EARLY STUDIES 265 10.4 THE STABILITY OF LONIC LIQUIDS IN PLASMA EXPERIMENTS 269 10.5 PLASMA ELECTROCHEMICAL METAL DEPOSITION IN LONIC LIQUIDS 274 10.6 CONCLUSIONS AND OUTLOOK 282 ACKNOWLEDGEMENT 283 REFERENCES 283 11 TECHNICAL ASPECTS 287 DEBBIE S. SILVESTER, EMMA I. ROGERS, RICHARD C. COMPTON, KATYJ. MCKENZIE, KARL S. RYDER, FRANK ENDRES, DOUGLAS MACFARLANE, AND ANDREW P. ABBOTT 11.1 METAL DISSOLUTION PROCESSES/COUNTER ELECTRODE REACTIONS 287 11.2 REFERENCE ELECTRODES FOR USE IN ROOM-TEMPERATURE LONIC LIQUIDS 296 11.3 PROCESS SCALE UP 310 CONTENTS 11.4 TOWARDS REGENERATION AND REUSE OF LONIC LIQUIDS IN ELECTROPLATING 11.5 IMPURITIES 334 APPENDIX: PROTOCOL FOR THE DEPOSITION OF ZINC FROM A TYPE III LONIC LIQUID 344 REFERENCES 345 12 PLATING PROTOCOLS 353 FRANK ENDRES, SHERIFZEIN EL ABEDIN, Q. LIU, DOUGLAS R. MACFARLANE, KARL S. RYDER, AND ANDREW P. ABBOTT 12.1 ELECTRODEPOSITION OF AI FROM L-ETHYL-3-METHYLIMIDAZOLIUM CHLORIDE/ALCL 3 353 12.2 ELECTRODEPOSITION OF AI FROM L-BUTYL-3-METHYLIMIDAZOLIUM CHLORIDE-ALCLJ - TOLUENE 356 12.3 ELECTRODEPOSITION OF AI FROM L-ETHYL-3-METHYLIMIDAZOLIUM BIS (TRIFLUOROMETHYLSULFONYL) AMIDE/ AICI3 358 12.4 ELECTRODEPOSITION OF AI FROM 1-BUTYL-L-METHYLPYRROLIDINIUM BIS(TRINUOROMETHYLSULFONYL)AMIDE/ALCI3 360 12.5 ELECTRODEPOSITION OF LI FROM 1-BUTYL-L-METHYLPYRROLIDINIUM BIS(TRINUOROMETHYLSULFONYL)AMIDE/LITHIUM BIS(TRIFLUOROMETHYLSULFONYL)AMIDE 362 12.6 ELECTRODEPOSITION OF TA FROM 1-BUTYL-L-METHYLPYRROLIDINIUM BIS(TRIFLUOROMETHYLSULFONYL)AMIDE 364 12.7 ELECTRODEPOSITION OF ZINC COATINGS FROM A CHOLINE CHLORIDE: ETHYLENE GLYCOL-BASED DEEP EUTECTIC SOLVENT 365 REFERENCES 367 13 FUTURE DIRECTIONS AND CHALLENGES 369 FRANK ENDRES, ANDREW P. ABBOTT, AND DOUGLAS MACFARLANE 13.1 IMPURITIES 369 13.2 COUNTER ELECTRODES/COMPARTMENTS 370 13.3 LONIC LIQUIDS FOR REACTIVE (NANO-)MATERIALS 371 13.4 NANOMATERIALS/NANOPARTICLES 372 13.5 CATION/ANION EFFECTS 373 13.6 POLYMERS FOR BATTERIES AND SOLAR CELLS 373 13.7 VARIABLE TEMPERATURE STUDIES 374 13.8 INTRINSIC PROCESS SAFETY 374 13.9 ECONOMICS (PRICE, RECYCLING) 375 13.10 WHICH LIQUID TO START WITH? 375 13.11 FUNDAMENTAL KNOWLEDGE GAPS 376 SUBIECT INDEX 379
adam_txt	ELECTRODEPOSITION FROM LONIC LIQUIDS EDITED BY FRANK ENDRES, DOUGLAS MACFARLANE, AND ANDREW ABBOTT WILEY- VCH WILEY-VCH VERLAG GMBH & CO. KGAA CONTENTS PREFACE IX FOREWORD XIII LIST OF CONTRIBUTORS XV LIST OF ABBREVIATIONS XIX 1 WHY USE LONIC LIQUIDS FOR ELECTRODEPOSITION? 1 ANDREW P. ABBOTT, LAN DALRYMPLE, FRANK ENDRES, AND DOUGLAS R. MACFARLANE 1.1 NON-AQUEOUS SOLUTIONS 3 1.2 LONIC FLUIDS 3 1.3 WHAT IS AN LONIC LIQUID? 4 1.4 TECHNOLOGICAL POTENTIAL OF LONIC LIQUIDS 6 1.5 CONCLUDING REMARKS 12 REFERENCES 12 2 SYNTHESISOF LONIC LIQUIDS 15 TOM BEYERSDORFF, THOMAS J. S. SCHUBERT, URS WELZ-BIERMANN, WILL PITNER, ANDREW P. ABBOTT, KATYJ. MCKENZIE, AND KARL S. RYDER 2.1 SYNTHESIS OF CHLOROALUMINATE LONIC LIQUIDS 15 2.2 AIR- AND WATER-STABLE LONIC LIQUIDS 21 2.3 EUTECTIC-BASED LONIC LIQUIDS 31 REFERENCES 42 R~ 3 PHYSICAL PROPERTIES OF LONIC LIQUIDS FOR ELECTROCHEMICAL APPLICATIONS 47 HIROYUKI OHNO 3.1 INTRODUCTION 47 - , 3.2 THERMAL PROPERTIES 47 3.3 VISCOSITY 54 3.4 DENSITY 55 3.5 REFRACTIVE INDEX 56 3.6 POLARITY 58 3.7 SOLUBILITYOFMETALSALTS 64 ELECTRODEPOSITION JROM LONIC LIQUIDS. EDITED BY F. ENDRES, D. MACFARLANE, A. ABBOTT COPYRIGHT 2008 WILEY-VCH VERLAG GMBH & CO. KGAA, WEINHEIM ISBN: 978-3-527-31565-9 CONTENTS 3.8 ELECTROCHEMICAL PROPERTIES 66 3.9 CONCLUSION AND FUTURE PROSPECTS 77 ACKNOWLEDGEMENT 77 REFERENCES 78 4 ELECTRODEPOSITION OF METALS 83 THOMAS SCHUBERT, SHERIFZEIN, EL ABEDIN, ANDREW P. ABBOTT, KATYJ. MCKENZIE, KARL S. RYDER, AND FRANK ENDRES 4.1 ELECTRODEPOSITION IN ALCLSS-BASED LONIC LIQUIDS 84 4.2 ELECTRODEPOSITION OF METALS IN AIR- AND WATER-STABLE LONIC LIQUIDS 92 4.3 DEPOSITION OF METALS FROM NON-CHLOROALUMINATE EUTECTIC MIXTURES 103 4.4 TROUBLESOME ASPECTS 114 REFERENCES 120 5 ELECTRODEPOSITION OF ALLOYS 125 I.-WEN SUN, AND PO-YU CHEN 5.1 INTRODUCTION 125 5.2 ELECTRODEPOSITION OF AL-CONTAINING ALLOYS FROM CHLOROALUMINATE LONIC LIQUIDS 126 5.3 ELECTRODEPOSITION OF ZN-CONTAINING ALLOYS FROM CHLOROZINCATE LONIC LIQUIDS 132 5.4 FABRICATION OF A POROUS METAL SURFACE BY ELECTROCHEMICAL AUOYING AND DE-ALLOYING 137 N - 5.5 NB-SN 139 5.6 AIR- AND WATER-STABLE LONIC LIQUIDS 140 5.7 SUMMARY 145 REFERENCES 145 6 ELECTRODEPOSITION OF SEMICONDUCTORS IN LONIC LIQUIDS 147 NATALIA BORISENKO, SHERIFZEIN EL ABEDIN, AND FRANK ENDRES 6.1 INTRODUCTION 147 6.2 GALLIUM ARSENIDE 149 6.3 INDIUM ANTIMONIDE 149 6.4 ALUMINUM ANTIMONIDE 150 6.5 ZINC TELLURIDE 150 6.6 CADMIUM TELLURIDE 151 6.7 GERMANIUM 151 6.8 SILICON 155 6.9 GREY SELENIUM 160 6.10 CONCLUSIONS 164 REFERENCES 164 7 CONDUCTING POLYMERS 167 JENNIFER M. PRINGLE, MARIA FORSYTH, AND DOUGLAS R. MACFARLANE 7.1 INTRODUCTION 167 7.2 ELECTROPOLYMERIZATION - GENERAL EXPERIMENTAL TECHNIQUES 171 CONTENTS I VII 7.3 SYNTHESISOFCONDUCTING POLYMERS 177 7.4 CHARACTERIZATION 191 7.5 FUTURE DIRECTIONS 203 7.6 CONCLUSIONS 207 REFERENCES 208 8 NANOSTRUCTURED METALS AND ALLOYS DEPOSITED FROM LONIC LIQUIDS 213 ROLFHEMPELMARW, AND HARALD NATTER 8.1 INTRODUCTION 213 8.2 PULSED ELECTRODEPOSITION FROM AQUEOUS ELECTROLYTES 215 8.3 SPECIAL FEATURES OF LONIC LIQUIDS AS ELECTROLYTES 220 8.4 NANOCRYSTALLINE METALS AND ALLOYS FROM CHLOROMETALLATE-BASED LONIC LIQUIDS 222 8.5 NANOCRYSTALLINE METALS FROM AIR- AND WATER-STABLE LONIC LIQUIDS 227 8.6 CONCLUSION AND OUTLOOK 234 ACKNOWLEDGEMENT 235 REFERENCES 235 9 ELECTRODEPOSITION ON THE NANOMETER SCALE: IN SITU SCANNING TUNNELING MICROSCOPY 239 FRANK ENDRES, AND SHERIFZEIN EL ABEDIN 9.1 INTRODUCTION 239 9.2 IN SITU STM IN [PY M ] TFSA 241 9.3 ELECTRODEPOSITION OF ALUMINUM 245 9.4 ELECTRODEPOSITION OF TANTALUM 250 9.5 ELECTRODEPOSITION OF POLY(P-PHENYLENE) 252 9.6 SUMMARY 256 REFERENCES 256 10 PLASMA ELECTROCHEMISTRY WITH LONIC LIQUIDS 259 JUERGEN JANEK, MARCUS ROHNKE, MANUEL POELLETH, AND SEBASTIAN A. MEISS 10.1 INTRODUCTION 259 10.2 CONCEPTS AND PRINCIPLES 260 10.3 EARLY STUDIES 265 10.4 THE STABILITY OF LONIC LIQUIDS IN PLASMA EXPERIMENTS 269 10.5 PLASMA ELECTROCHEMICAL METAL DEPOSITION IN LONIC LIQUIDS 274 10.6 CONCLUSIONS AND OUTLOOK 282 ACKNOWLEDGEMENT 283 REFERENCES 283 11 TECHNICAL ASPECTS 287 DEBBIE S. SILVESTER, EMMA I. ROGERS, RICHARD C. COMPTON, KATYJ. MCKENZIE, KARL S. RYDER, FRANK ENDRES, DOUGLAS MACFARLANE, AND ANDREW P. ABBOTT 11.1 METAL DISSOLUTION PROCESSES/COUNTER ELECTRODE REACTIONS 287 11.2 REFERENCE ELECTRODES FOR USE IN ROOM-TEMPERATURE LONIC LIQUIDS 296 11.3 PROCESS SCALE UP 310 CONTENTS 11.4 TOWARDS REGENERATION AND REUSE OF LONIC LIQUIDS IN ELECTROPLATING 11.5 IMPURITIES 334 APPENDIX: PROTOCOL FOR THE DEPOSITION OF ZINC FROM A TYPE III LONIC LIQUID 344 REFERENCES 345 12 PLATING PROTOCOLS 353 FRANK ENDRES, SHERIFZEIN EL ABEDIN, Q. LIU, DOUGLAS R. MACFARLANE, KARL S. RYDER, AND ANDREW P. ABBOTT 12.1 ELECTRODEPOSITION OF AI FROM L-ETHYL-3-METHYLIMIDAZOLIUM CHLORIDE/ALCL 3 353 12.2 ELECTRODEPOSITION OF AI FROM L-BUTYL-3-METHYLIMIDAZOLIUM CHLORIDE-ALCLJ - TOLUENE 356 12.3 ELECTRODEPOSITION OF AI FROM L-ETHYL-3-METHYLIMIDAZOLIUM BIS (TRIFLUOROMETHYLSULFONYL) AMIDE/ AICI3 358 12.4 ELECTRODEPOSITION OF AI FROM 1-BUTYL-L-METHYLPYRROLIDINIUM BIS(TRINUOROMETHYLSULFONYL)AMIDE/ALCI3 360 12.5 ELECTRODEPOSITION OF LI FROM 1-BUTYL-L-METHYLPYRROLIDINIUM BIS(TRINUOROMETHYLSULFONYL)AMIDE/LITHIUM BIS(TRIFLUOROMETHYLSULFONYL)AMIDE 362 12.6 ELECTRODEPOSITION OF TA FROM 1-BUTYL-L-METHYLPYRROLIDINIUM BIS(TRIFLUOROMETHYLSULFONYL)AMIDE 364 12.7 ELECTRODEPOSITION OF ZINC COATINGS FROM A CHOLINE CHLORIDE: ETHYLENE GLYCOL-BASED DEEP EUTECTIC SOLVENT 365 REFERENCES 367 13 FUTURE DIRECTIONS AND CHALLENGES 369 FRANK ENDRES, ANDREW P. ABBOTT, AND DOUGLAS MACFARLANE 13.1 IMPURITIES 369 13.2 COUNTER ELECTRODES/COMPARTMENTS 370 13.3 LONIC LIQUIDS FOR REACTIVE (NANO-)MATERIALS 371 13.4 NANOMATERIALS/NANOPARTICLES 372 13.5 CATION/ANION EFFECTS 373 13.6 POLYMERS FOR BATTERIES AND SOLAR CELLS 373 13.7 VARIABLE TEMPERATURE STUDIES 374 13.8 INTRINSIC PROCESS SAFETY 374 13.9 ECONOMICS (PRICE, RECYCLING) 375 13.10 WHICH LIQUID TO START WITH? 375 13.11 FUNDAMENTAL KNOWLEDGE GAPS 376 SUBIECT INDEX 379
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indexdate	2024-07-20T09:38:34Z
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spelling	Electrodeposition from ionic liquids ed. by Frank Endres ... Weinheim Wiley-VCH-Verl. 2008 XXII, 387 S. Ill., graph. Darst. 25 cm txt rdacontent n rdamedia nc rdacarrier Literaturangaben Electrochemistry Ionic solutions Galvanische Abscheidung (DE-588)4316091-8 gnd rswk-swf Elektrolytlösung (DE-588)4133913-7 gnd rswk-swf Galvanische Abscheidung (DE-588)4316091-8 s Elektrolytlösung (DE-588)4133913-7 s DE-604 Endres, Frank 1966- Sonstige (DE-588)114564078 oth text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2998690&prov=M&dok_var=1&dok_ext=htm Inhaltstext http://d-nb.info/985483644/04 Inhaltsverzeichnis GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016461376&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Electrodeposition from ionic liquids Electrochemistry Ionic solutions Galvanische Abscheidung (DE-588)4316091-8 gnd Elektrolytlösung (DE-588)4133913-7 gnd
subject_GND	(DE-588)4316091-8 (DE-588)4133913-7
title	Electrodeposition from ionic liquids
title_auth	Electrodeposition from ionic liquids
title_exact_search	Electrodeposition from ionic liquids
title_exact_search_txtP	Electrodeposition from ionic liquids
title_full	Electrodeposition from ionic liquids ed. by Frank Endres ...
title_fullStr	Electrodeposition from ionic liquids ed. by Frank Endres ...
title_full_unstemmed	Electrodeposition from ionic liquids ed. by Frank Endres ...
title_short	Electrodeposition from ionic liquids
title_sort	electrodeposition from ionic liquids
topic	Electrochemistry Ionic solutions Galvanische Abscheidung (DE-588)4316091-8 gnd Elektrolytlösung (DE-588)4133913-7 gnd
topic_facet	Electrochemistry Ionic solutions Galvanische Abscheidung Elektrolytlösung
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