Verfügbarkeit: Electrodeposition from ionic liquids

Electrodeposition from ionic liquids:

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Bibliographische Detailangaben
Weitere Verfasser:	Endres, Frank 1966- (HerausgeberIn), Abbott, Andrew (HerausgeberIn), MacFarlane, Douglas (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH [2017]
Ausgabe:	Second, completely revised and enlarged edition
Schlagworte:	Elektrolytlösung Galvanische Abscheidung Chemie Chemistry Dünne Schichten, Oberflächen u. Grenzflächen Electrochemistry Elektrochemie Farben, Pigmente, Beschichtungen, Farbstoffe Materials Science Materialwissenschaften Paints, Pigments, Coatings, Dyes Thin Films, Surfaces & Interfaces
Online-Zugang:	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-33602-9/ Inhaltsverzeichnis
Beschreibung:	xxxi, 504 Seiten Illustrationen, Diagramme (teilweise farbig)
ISBN:	9783527336029

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MARC


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245	1	0	\|a Electrodeposition from ionic liquids \|c edited by Frank Endres, Andrew Abbott, and Douglas MacFarlane
250			\|a Second, completely revised and enlarged edition
264		1	\|a Weinheim \|b Wiley-VCH \|c [2017]
264		4	\|c © 2017
300			\|a xxxi, 504 Seiten \|b Illustrationen, Diagramme (teilweise farbig)
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650	0	7	\|a Elektrolytlösung \|0 (DE-588)4133913-7 \|2 gnd \|9 rswk-swf
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653			\|a Chemie
653			\|a Chemistry
653			\|a Dünne Schichten, Oberflächen u. Grenzflächen
653			\|a Electrochemistry
653			\|a Elektrochemie
653			\|a Farben, Pigmente, Beschichtungen, Farbstoffe
653			\|a Materials Science
653			\|a Materialwissenschaften
653			\|a Paints, Pigments, Coatings, Dyes
653			\|a Thin Films, Surfaces & Interfaces
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700	1		\|a Endres, Frank \|d 1966- \|0 (DE-588)114564078 \|4 edt
700	1		\|a Abbott, Andrew \|4 edt
700	1		\|a MacFarlane, Douglas \|4 edt
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776	0	8	\|i Erscheint auch als \|n Online-Ausgabe, Mobi \|z 978-3-527-68271-3
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999			\|a oai:aleph.bib-bvb.de:BVB01-029442134

Datensatz im Suchindex

_version_	1804177040982671360
adam_text	CONTENTS LIST OF CONTRIBUTORS XVII ABBREVIATIONS XXI 1 WHY USE IONIC LIQUIDS FOR ELECTRODEPOSITION? 1 ANDREW R ABBOTT, FRANK ENDRES, AND DOUGLAS R. MACFARLANE 1.1 NONAQUEOUS SOLUTIONS 2 1.2 IONIC FLUIDS 3 1.3 WHAT IS AN IONIC LIQUID? 4 1.4 TECHNOLOGICAL POTENTIAL OF IONIC LIQUIDS 6 1.4.1 REMOVAL OF TOXIC REAGENTS 6 1.4.2 WATER-SENSITIVE METALS 7 1.4.3 DEPOSITION ON WATER-SENSITIVE SUBSTRATES 7 1.4.4 SEMICONDUCTOR ELECTRODEPOSITION 7 1.4.5 DEPOSITION OF NANOARCHITECTURES 7 1.4.6 HEALTH AND SAFETY 8 1.4.7 TEMPERATURE 10 1.4.8 DILUENTS 10 1.4.9 CATION AND ADDED ELECTROLYTES 10 1.4.10 ANODE MATERIAL 10 1.4.11 BRIGHTENERS 11 1.5 CONCLUSIONS 11 REFERENCES 12 2 SYNTHESIS OF IONIC LIQUIDS 17 TOM BEYERSDORFF, THOMAS J. 5. SCHUBERT; URS WELZ-BIERMANN, WILL PITNER, ANDREW R ABBOTT; KATYJ. MCKENZIE, AND KARL 5. RYDER 2.1 NANOSTRUCTURED METALS AND ALLOYS DEPOSITED FROM IONIC LIQUIDS 17 THOMASJ. 5. SCHUBERT 2.1.1 INTRODUCTION 17 2.1.2 SYNTHESIS OF ROOM-TEMPERATURE CHLOROALUMINATE-BASED IONIC LIQUIDS 18 2.1.2.1 INTRODUCTION 18 2.1.2.2 THE QUATERNIZATION REACTION 19 2.1.2.3 CHLOROALUMINATE SYNTHESIS 21 2.1.3 PHYSICAL DATA OF HALOALUMINATE-BASED IONIC LIQUIDS 24 REFERENCES 24 2.2 AIR- AND WATER-STABLE IONIC LIQUIDS 26 THOMAS J. 5. SCHUBERT 2.2.1 INTRODUCTION 26 2.2.2 TETRAFLUOROBORATE AND HEXAFLUOROPHOSPHATE-BASED IONIC LIQUIDS 28 2.2.3 TRIFLATE- AND TRIFLUOROACETATE-BASED IONIC LIQUIDS 30 2.2.4 BISTRIFLAMIDE-BASED IONIC LIQUIDS 30 2.2.5 TRISPENTAFLUOROETHYLTRIFLUOROPHOSPHATE-BASED IONIC LIQUIDS 31 2.2.6 CYANO-BASED IONIC LIQUIDS 32 2.2.7 EFFECT OF ANION ON IONIC LIQUID PHYSICOCHEMICAL PROPERTIES 33 2.2.8 PURITY 34 REFERENCES 35 2.3 EUTECTIC-BASED IONIC LIQUIDS 38 ANDREW P. ABBOTT 2.3.1 TYPE 1 EUTECTICS 40 2.3.2 TYPE 2 EUTECTICS 44 2.3.3 TYPE 3 EUTECTICS 45 2.3.4 TYPE 4 EUTECTICS 47 2.3.5 MODELING VISCOSITY AND CONDUCTIVITY 48 2.3.6 CONCLUSIONS 50 REFERENCES 50 3 PHYSICAL PROPERTIES OF IONIC LIQUIDS FOR ELECTROCHEMICAL APPLICATIONS 55 HIROYUKI OHNO 3.1 INTRODUCTION 55 3.2 THERMAL PROPERTIES 55 3.2.1 MELTING POINT 55 3.2.1.1 EFFECT OF ION RADIUS 56 3.2.1.2 EFFECT OF CATION STRUCTURE ON THE MELTING POINT 56 3.2.1.3 ANION SPECIES 58 3.2.2 GLASS TRANSITION TEMPERATURE 60 3.2.3 THERMAL DECOMPOSITION TEMPERATURE 60 3.2.4 LIQUID CRYSTALLINITY AND SOLID-SOLID TRANSITIONS 61 3.2.5 THERMAL CONDUCTIVITY 61 3.2.6 VAPOR PRESSURE 62 3.3 VISCOSITY 62 3.4 DENSITY 64 3.5 REFRACTIVE INDEX 65 3.6 POLARITY 67 3.6.1 SOLVATOCHROMISM 67 3.6.2 REICHARDTS BETAINE DYE 67 3.6.3 KAMLET-TAFT PARAMETERS 68 3.6.4 ACETYLACETONATOTETRAMETHYLETHYLDIAMINE COPPER (II) 72 3.6.5 PYRENE 73 3.6.6 NILE RED 73 3.7 SOLUBILITY OF METAL SALTS 73 3.8 ELECTROCHEMICAL PROPERTIES 76 3.8.1 ELECTROCHEMICAL WINDOW 76 3.8.2 IONIC CONDUCTIVITY 78 3.8.3 DIFFUSION COEFFICIENT OF COMPONENT IONS 82 3.8.4 IONIC LIQUIDS FOR SPECIFIC ION CONDUCTION 84 3.8.4.1 IONIC LIQUIDS CONTAINING SPECIFIC IONS 84 3.8.4.2 SELECTIVE ION CONDUCTION 85 3.9 CONCLUSION AND FUTURE PROSPECTS 86 ACKNOWLEDGMENTS 86 REFERENCES 86 4 ELECTRODEPOSITION OF METALS 95 4.1 ELECTRODEPOSITION IN A1C13-BASED IONIC LIQUIDS 95 THOMAS SCHUBERT 4.1.1 INTRODUCTION 95 4.1.2 GROUP I METALS 95 4.1.2.1 ELECTRODEPOSITION OF LITHIUM 96 4.1.2.2 ELECTRODEPOSITION OF SODIUM 98 4.1.3 GROUP II METALS 99 4.1.4 GROUP III METALS 100 4.1.4.1 ELECTRODEPOSITION OF ALUMINUM AND ALUMINUM ALLOYS 100 4.1.4.2 ELECTRODEPOSITION OF INDIUM 102 4.1.4.3 ELECTRODEPOSITION OF GALLIUM 102 4.1.5 GROUP IV METALS 102 4.1.5.1 ELECTRODEPOSITION OF TIN 102 4.1.6 GROUP V METALS 102 4.1.6.1 ELECTRODEPOSITION OF ANTIMONY 102 4.1.7 GROUP VI METALS 103 4.1.7.1 ELECTRODEPOSITION OF TELLURIUM 103 REFERENCES 103 4.2 ELECTRODEPOSITION OF REFRACTORY METALS FROM IONIC LIQUIDS 104 GIRIDHAR PULLETIKURTHI, NATALIA BORISENKO, AND FRANK ENDRES 4.2.1 INTRODUCTION 104 4.2.2 ELECTRODEPOSITION OF TI, TA, AND NB FROM HIGH-TEMPERATURE MOLTEN SALTS AND RTILS 106 4.2.2.1 TITANIUM ELECTRODEPOSITION 106 4.2.2.2 TANTALUM ELECTRODEPOSITION 108 4.2.2.3 NIOBIUM ELECTRODEPOSITION 110 4.2.3 ELECTRODEPOSITION OF CHROMIUM, MOLYBDENUM, AND ZIRCONIUM 113 4.2.3.1 ELECTRODEPOSITION STUDIES ON REFRACTORY METALS FROM CHLOROALUMINATE IONIC LIQUIDS 114 4.2.4 CONCLUSIONS 115 REFERENCES 115 4.3 DEPOSITION OF METALS FROM NONCHLOROALUMINATE EUTECTIC MIXTURES 119 ANDREW P. ABBOTT AND KARL 5. RYDER 4.3.1 INTRODUCTION 119 4.3.2 TYPE 1 EUTECTICS 122 4.3.2.1 CHLOROZINCATE IONIC LIQUIDS 122 4.3.2.2 OTHER TYPE 1 EUTECTICS 124 4.3.3 TYPE 2 EUTECTICS 125 4.3.4 TYPE 3 EUTECTICS 126 4.3.5 TYPE 4 EUTECTICS 128 4.3.6 LEWIS ACIDITY EFFECTS ON DEPOSIT MORPHOLOGY 129 4.3.7 FUTURE DEVELOPMENTS 129 REFERENCES 131 4.4 TROUBLESOME ASPECTS 132 ANDREW P. ABBOTT AND FRANK ENDRES 4.4.1 DEPOSITION OF REACTIVE ELEMENTS 132 4.4.2 VISCOSITY/CONDUCTIVITY 134 4.4.3 IMPURITIES 134 4.4.4 ADDITIVES 135 4.4.5 CATION/ANION EFFECTS 135 4.4.6 PRICE 736 4.4.7 CONCLUSIONS 236 REFERENCES 237 4.5 COMPLEXATION AND REDOX BEHAVIOR OF METAL IONS IN IONIC LIQUIDS 237 GERO FRISCH AND JENNIFER HARTLEY 4.5.1 INTRODUCTION 237 4.5.2 METHODS OF DETERMINING METAL SPECIATION IN IONIC MEDIA 239 4.5.2.1 CONTROLLING SPECIATION IN IONIC LIQUIDS 140 4.5.2.2 MEASURING REDOX POTENTIALS IN IONIC LIQUIDS 142 4.5.2.3 SPECIATION AND REDOX BEHAVIOR 144 4.5.3 ISSUES WITH OVERPOTENTIALS AND PASSIVATION EFFECTS 148 4.5.4 OUTLOOK AND FUTURE CHALLENGES 150 REFERENCES 252 5 ELECTRODEPOSITION OF ALLOYS 257 1-WEN SUN AND PO-YU CHEN 5.1 INTRODUCTION 257 5.2 ELECTRODEPOSITION OF AL-CONTAINING ALLOYS FROM CHLOROALUMINATE IONIC LIQUIDS 160 5.2.1 AL-TI 160 5.2.2 AL-MO 262 5.2.3 AL-ZR 262 5.2.4 AL-PT 263 5.2.5 AL-MG 264 5.2.6 AL-CE 264 5.2.7 AL-ZN 264 5.2.8 AL-W 265 5.2.9 AL-M N 265 5.2.10 AL-HF 265 5.2.11 A L-M O-M N 266 5.2.12 AL-M O-TI 166 5.2.13 A L-CR-N I 167 5.3 ELECTRODEPOSITION OF ZN-CONTAINING ALLOYS FROM CHLOROZINCATE IONIC LIQUIDS 167 5.3.1 ALLOYS OF ZN WITH CU, CD, AND SN 167 5.3.2 ZN-CO 168 5.3.3 ZN-FE 168 5.3.4 ZN-N I 169 5.3.5 ZN-M G 169 5.3.6 PT-ZN 169 5.4 FABRICATION OF A POROUS METAL SURFACE BY ELECTROCHEMICAL ALLOYING AND DEALLOYING 170 5.5 NB-SN 171 5.6 AIR- AND WATER-STABLE IONIC LIQUIDS 171 5.6.1 PD-AU AND PD-AG 172 5.6.2 PD-IN 172 5.6.3 PD-CU 172 5.6.4 PD-SN 173 5.6.5 PD-NI 173 5.6.6 IN-SN 173 5.6.7 CU-SN 174 5.6.8 ZN-M N 174 5.6.9 CU-ZN 176 5.6.10 MG-LI 176 5.6.11 AU-AG 176 5.6.12 AL-CU 176 5.6.13 AL-FE 177 5.7 DEEP EUTECTIC SOLVENTS 178 5.7.1 CO-PT 178 5.7.2 NI-CO 178 5.7.3 N I-ZN 178 5.7.4 NI-SN 179 5.7.5 NI-CU 179 5.7.6 ZN-CO 179 5.7.7 ZN-TI 179 5.7.8 ZN-SN 180 5.7.9 CU-GA AND CU-IN 181 5.7.10 FE-GA 181 5.7.11 CO-SM 182 5.7.12 CO-CR 182 5.8 SUMMARY 182 REFERENCES 183 6 ELECTRODEPOSITION OF SEMICONDUCTORS FROM IONIC LIQUIDS 187 NATALIA BORISENKO, ABHISHEK LAHIRI, AND FRANK ENDRES 6.1 INTRODUCTION 187 6.2 GROUP IV SEMICONDUCTORS 188 6.2.1 SI 189 6.2.2 GE 191 6.2.3 SI^G E^ AND GEXSN1-X 195 6.3 II-VI COMPOUND SEMICONDUCTORS 196 6.3.1 CDTE 196 6.3.2 ZNTE 197 6.3.3 CDSE 197 6.3.4 METAL OXIDES (ZNO) 197 6.3.5 METAL SULFIDES (CDS, ZNS, AND SNS) 198 6.4 III-V COMPOUND SEMICONDUCTORS 198 6.4.1 GAAS 199 6.4.2 INSB 199 6.4.3 GASB 199 6.4.4 AL-CONTAINING SEMICONDUCTORS (ALSB AND ALLNSB) 200 6.4.5 GAN 201 6.5 OTHER COMPOUND SEMICONDUCTORS 201 6.5.1 II-V COMPOUND SEMICONDUCTORS (ZNSB) 201 6.5.2 CU-BASED CHALCOGENIDE TERNARY SEMICONDUCTORS (CUSBS2) 201 6.6 CONCLUSIONS 202 REFERENCES 204 7 CONDUCTING POLYMERS 211 JENNIFER M. PRINGLE 7.1 INTRODUCTION 211 7.2 ELECTROPOLYMERIZATION - GENERAL EXPERIMENTAL PROCEDURES 214 7.2.1 TEMPERATURE 215 7.2.2 ELECTROCHEMICAL TECHNIQUES 215 7.2.3 ELECTROPOLYMERIZATION POTENTIAL 216 7.2.4 ELECTRODES 216 7.2.5 ATMOSPHERE AND WATER CONTENT 217 7.2.6 CHOICE OF IL 217 7.3 SYNTHESIS OF CONDUCTING POLYMERS IN CHLOROALUMINATE ILS 219 7.3.1 POLY(PYRROLE) 219 7.3.2 POLY(/?-PHENYLENE) 220 7.3.3 POLY(THIOPHENE)S AND POLY(FLUORENE) 221 7.3.4 POLY(ANILINE) 221 7.4 SYNTHESIS OF CONDUCTING POLYMERS IN AIR- AND WATER-STABLE ILS 221 7.4.1 POLY(PYRROLE) 221 7.4.2 POLY(THIOPHENE)S 223 7.4.3 POLY(3,4-ETHYLENEDIOXYTHIOPHENE) 229 7.4.4 POLY(/?-PHENYLENE) 232 7.4.5 POLY(ANILINE) 233 7.4.6 COPOLYMERS, COMPOSITES, AND NANOSTRUCTURED POLYMERS 233 7.5 CHARACTERIZATION 235 7.5.1 ELECTROCHEMICAL CHARACTERIZATION 236 7.5.2 MORPHOLOGICAL CHARACTERIZATION 238 7.5.3 SPECTROSCOPIC CHARACTERIZATION 241 7.6 CONCLUSIONS AND OUTLOOK 244 REFERENCES 245 8 NANOSTRUCTURED MATERIALS 253 8.1 NANOSTRUCTURED METALS AND ALLOYS DEPOSITED FROM IONIC LIQUIDS 253 ROLFHEMPELMANN AND HARALD NATTER 8.1.1 INTRODUCTION 253 8.1.2 PULSED ELECTRODEPOSITION FROM AQUEOUS ELECTROLYTES 255 8.1.2.1 FUNDAMENTAL ASPECTS 255 8.1.2.2 NANOMETAL DEPOSITION WITH NANO-GOLD AS AN EXAMPLE 257 8.1.2.3 NANOALLOY DEPOSITION WITH FE^ NI1-;C ALLOYS AS AN EXAMPLE 258 8.1.3 SPECIAL FEATURES OF IONIC LIQUIDS AS ELECTROLYTES 259 8.1.4 NANOCRYSTALLINE METALS AND ALLOYS FROM CHLOROMETALLATE-BASED IONIC LIQUIDS 261 8.1.5 NANOCRYSTALLINE METALS FROM AIR- AND WATER-STABLE IONIC LIQUIDS 266 8.1.6 CONCLUSION AND OUTLOOK 273 ACKNOWLEDGMENTS 273 REFERENCES 274 8.2 ELECTRODEPOSITION OF ORDERED MACROPOROUS MATERIALS FROM IONIC LIQUIDS 278 YAO LI AND JIUPENG ZHAO 8.2.1 INTRODUCTION 278 8.2.2 3DOM GERMANIUM AND SILICON 279 8.2.3 3DOM GALLIUM 283 8.2.4 3DOM SILVER 284 8.2.5 3DOM ALUMINUM 284 8.2.6 3DOM COPPER 285 8.2.7 3DOM LITHIUM 285 8.2.8 3DOM ZINC AND ZINC OXIDE 285 8.2.9 3DOM CONDUCTING POLYMER 286 8.2.10 3DOM BILAYER FILMS 286 8.2.11 SUMMARY 288 REFERENCES 288 8.3 ELECTRODEPOSITION OF NANOWIRES FROM IONIC LIQUIDS 289 1-WEN SUN AND PO-YU CHEN 8.3.1 INTRODUCTION 289 8.3.2 TEMPLATE-ASSISTED ELECTRODEPOSITION OF NANOWIRES 290 8.3.2.1 SILVER 290 8.3.2.2 ALUMINUM 291 8.3.2.3 ZINC 292 8.3.2.4 TIN 294 5.3.2.5 ZINC-COPPER AND ZINC-TIN 294 8.3.2.6 COBALT 294 8.3.2.7 GERMANIUM AND SILICON SEMICONDUCTORS 295 8.3.2.S CONDUCTING POLYMERS 295 8.3.3 TEMPLATE-FREE ELECTRODEPOSITION OF NANOWIRES 296 8.3.3.1 NANOWIRES GROWN FROM CHLOROMETALATE ILS 296 S.3.3.2 TIN, TIN-SILICON, AND TELLURIUM FROM NONCHLOROMETALLATE ILS 300 8.3.4 SUMMARY 302 ACKNOWLEDGMENT 302 REFERENCES 303 8.4 ELECTROCHEMICAL SYNTHESIS OF NANOWIRE ELECTRODES FOR LITHIUM BATTERIES 304 SHERIFZEIN EL ABEDIN 8.4.1 INTRODUCTION 304 8.4.2 TEMPLATE-ASSISTED ELECTRODEPOSITION OF NANOWIRES/TUBES 305 8.4.2.1 SILICON 305 8.4.2.2 GERMANIUM 306 8.4.2.3 ALUMINUM 308 8.4.2.4 LITHIUM 311 8.4.2.5 TIN AND ZINC 312 8.4.3 TEMPLATE-FREE ELECTRODEPOSITION OF NANOWIRES 314 8.4.4 SUMMARY 316 ACKNOWLEDGMENTS 317 REFERENCES 317 9 IONIC LIQUID-SOLID INTERFACES 321 HUA LI, TIMO CARSTENS, AARON ELBOURNE, NATALIA BORISENKO, RENE GUSTUS, FRANK END RES, AND ROB ATKIN 9.1 INTRODUCTION 321 9.2 IL-AU(L 11) INTERFACE 322 9.3 IL-HOPG INTERFACE 327 9.4 INFLUENCE OF SOLUTES ON THE IL-ELECTRODE INTERFACIAL STRUCTURE 332 9.5 THIN FILMS OF IONIC LIQUIDS IN ULTRAHIGH VACUUM (UHV) 335 9.6 OUTLOOK 339 REFERENCES 339 10 PLASMA ELECTROCHEMISTRY WITH IONIC LIQUIDS 345 JUERGEN JANEK, MARCUS ROHNKE, MANUEL POELLETH, AND SEBASTIAN A. MEISS 10.1 INTRODUCTION 345 10.2 CONCEPTS AND PRINCIPLES 346 10.2.1 PLASMA ELECTROCHEMISTRY 346 10.2.2 LOW-TEMPERATURE PLASMAS: ELECTRODES OR ELECTROLYTES? 347 10.2.3 THE PLASMA-ELECTROLYTE INTERFACE 348 10.2.4 TYPES OF PLASMAS AND REACTORS 350 10.3 EARLY STUDIES 351 10.4 THE STABILITY OF IONIC LIQUIDS IN PLASMA EXPERIMENTS 355 10.5 PLASMA ELECTROCHEMICAL METAL DEPOSITION IN IONIC LIQUIDS 359 10.5.1 DEPOSITION OF SILVER METAL 360 10.5.2 DEPOSITION OF COPPER METAL 364 10.5.3 DEPOSITION OF PLATINUM METAL 365 10.5.4 DEPOSITION OF PALLADIUM METAL 365 10.6 CONCLUSIONS AND OUTLOOK 367 ACKNOWLEDGMENTS 368 REFERENCES 368 11 IMPEDANCE SPECTROSCOPY ON ELECTRODE \| IONIC LIQUID INTERFACES 373 JENS WALLAUER, MARCO BALABAJEW, AND BERNHARD ROLING 11.1 INTRODUCTION 373 11.1.1 FUNDAMENTALS OF IMPEDANCE SPECTROSCOPY 374 11.1.2 THE IMPEDANCE RESPONSE OF COMMON SYSTEMS 375 11.2 MEASUREMENT: BASICS AND PITFALLS 378 11.2.1 WORKING PRINCIPLES OF IMPEDANCE ANALYZERS 3 78 11.2.2 ARTIFACTS IN MEASUREMENTS WITH MORE THAN TWO ELECTRODES 379 11.2.3 CONCLUSIONS 381 11.3 ANALYSIS OF EXPERIMENTAL DATA 381 11.3.1 FITTING 382 11.3.1.1 INTRODUCTION 382 11.3.1.2 INITIALIZATION OF FITTING ALGORITHMS 382 11.3.1.3 WEIGHTING 383 11.3.1.4 FIT QUALITY AND DATA VALIDITY 384 11.3.2 CONCLUSIONS 386 11.4 APPLICATION: IE INTERFACES AT METAL ELECTRODES 387 11.4.1 INTRODUCTION 387 11.4.2 MEASUREMENT AND DATA ANALYSIS 389 11.4.3 EXPERIMENTAL SETUP 390 11.4.4 RESULTS 391 11.4.4.1 [PYRR14]FAP 391 11.4.4.2 [EMIM]FAP 392 11.4.4.3 ORIGIN OF THE FAST CAPACITIVE PROCESS 392 11.4.4.4 ORIGIN OF THE SLOW CAPACITIVE PROCESS 393 11.4.5 CONCLUSIONS 394 REFERENCES 395 12 TECHNICAL ASPECTS 401 12.1 METAL DISSOLUTION PROCESSES 401 ANDREW P. ABBOTT; WRYA KARIM, AND KARL 5. RYDER 12.1.1 COUNTER ELECTRODE REACTIONS 402 12.1.1.1 PRETREATMENT PROTOCOL 405 REFERENCES 408 12.2 REFERENCE ELECTRODES FOR USE IN ROOM-TEMPERATURE IONIC LIQUIDS 408 DOUGLAS R. MACFARLANE 12.2.1 WHAT IS A REFERENCE ELECTRODE? 408 12.2.2 ESSENTIAL CHARACTERISTICS OF A REFERENCE ELECTRODE 410 12.2.3 PSEUDO-REFERENCE ELECTRODES AND INTERNAL REDOX REFERENCE COUPLES 411 12.2.4 LIQUID JUNCTION POTENTIALS 412 12.2.5 REFERENCE ELECTRODES IN RTILS: WHAT HAS BEEN USED? 412 12.2.6 RECOMMENDATIONS AND COMMENTS 417 12.2.6.1 WHEN AND HOW CAN I USE A PSEUDO-REFERENCE ELECTRODE IN VOLTAMMETRY? 417 12.2.6.2 HOW DO I CONDUCT AN ELECTROSYNTHETIC EXPERIMENT UNDER POTENTIAL CONTROL? 420 12.2.6.3 WHAT OPTIONS ARE AVAILABLE FOR RIGOROUS, QUANTITATIVE VOLTAMMETRY? 420 REFERENCES 422 12.3 PROCESS SCALE-UP 424 ANDREW R ABBOTT 12.3.1 CHROMIUM 424 12.3.2 ZINC ALLOYS 424 12.3.3 IMMERSION SILVER 426 12.3.4 ELECTROPOLISHING 427 12.3.5 GENERAL ISSUES 430 12.3.6 MATERIAL COMPATIBILITY 430 12.3.7 PRETREATMENT PROTOCOLS 431 12.3.8 CONDUCTIVITY AND ADDED ELECTROLYTES 432 12.3.8.1 BRIGHTENERS 433 12.3.8.2 COUNTER ELECTRODE REACTIONS 434 12.3.8.3 POSTTREATMENT PROTOCOLS AND WASTE TREATMENT 434 12.3.8.4 SUPPLY 435 12.3.8.5 BREAKDOWN AND RECYCLING 435 12.3.9 CONCLUSIONS 436 REFERENCES 436 12.4 TOWARD REGENERATION AND REUSE OF IONIC LIQUIDS IN ELECTROPLATING 438 DANIEL WATERCAMP AND JORG THOEMING 12.4.1 INTRODUCTION 439 12.4.2 RECOVERY, REGENERATION, AND REUSE OF ELECTROLYTES IN ELECTROPLATING 440 12.4.2.1 THE CONCEPT 440 12.4.2.2 REGENERATION OPTIONS FOR WATER-BASED PROCESS LIQUORS 441 12.4.2.3 REGENERATION OPTIONS FOR IONIC LIQUIDS IN ELECTROPLATING 444 12.4.3 CASE STUDY 448 12.4.4 CONCLUSIONS 452 ACKNOWLEDGMENTS 453 REFERENCES 453 12.5 IMPURITIES 457 ANDREW P. ABBOTT; FRANK ENDRES AND DOUGLAS MACFARLANE 12.5.1 ORIGIN OF IMPURITIES 457 12.5.1.1 SYNTHETIC IMPURITIES 457 12.5.1.2 WATER 458 12.5.1.3 GASEOUS IMPURITIES 459 12.5.1.4 PARTICULATE IMPURITIES 459 12.5.2 IMPURITIES IN DEEP EUTECTIC SOLVENTS 459 12.5.3 IMPACT OF IMPURITIES ON ELECTROCHEMISTRY 461 A.L PROTOCOL FOR THE DEPOSITION OF ZINC FROM A TYPE III IONIC LIQUID 467 A.1.1 PREPARATION OF IONIC LIQUIDS 467 A.2 ELECTROPLATING EXPERIMENT 467 A.2.1 METHOD 467 A.2.2 SAFETY PRECAUTIONS 468 REFERENCES 468 13 PLATING PROTOCOLS 469 FRANK ENDRES, SHERIFZEIN EL ABEDIN, DOUGLAS R. MACFARLANE, KARL S. RYDER, AND ANDREW P. ABBOTT 13.1 ELECTRODEPOSITION OF A1 FROM [C2MIM]CL/ALCL3 469 13.1.1 EXPERIMENTAL SETUP 469 13.1.2 CHEMICALS AND PREPARATION 470 13.1.3 RESULTS 470 13.2 ELECTRODEPOSITION OF A1 FROM L-BUTYL-3-METHYLIMIDAZOLIUMCHLORIDE- AICI3-TOLUENE 472 13.2.1 APPARATUS, MATERIALS, AND CHEMICALS 472 13.2.2 PREPARATION OF ALCL3-[C 4MIM]CL-TOLUENE IONIC LIQUID MIXTURE ([2:1]: 3) 472 13.2.3 PRETREATMENTS 472 13.2.3.1 CATHODE (MILD STEEL RODS) 472 13.2.3.2 ANODE (AL) 473 13.2.4 ELECTROPLATING AND MORPHOLOGY ANALYSIS 473 13.2.5 RESULTS 473 13.3 ELECTRODEPOSITION OF AL FROM [C2MIM] NTF2/ALCL3 473 13.3.1 EXPERIMENTAL SETUP 474 13.3.2 CHEMICALS AND PREPARATION 474 13.3.3 RESULTS 475 13.4 ELECTRODEPOSITION OF AL FROM [C4MPYR]NTF2/ALCL3 476 13.4.1 EXPERIMENTAL SETUP 476 13.4.2 CHEMICALS AND PREPARATION 476 13.4.3 RESULTS 476 13.5 ELECTRODEPOSITION OF LI FROM [C4MPYR]NTF2/LINTF2 477 13.6 ELECTRODEPOSITION OF TA FROM [C4MPYR]NTF2 479 13.6.1 ELECTRODES 479 13.6.2 CHEMICALS 479 13.6.3 RESULTS 479 13.7 ELECTRODEPOSITION OF ZINC COATINGS FROM A CHOLINE CHLORIDE: ETHYLENE-GLYCOL-BASED DEEP EUTECTIC SOLVENT 480 13.7.1 EXPERIMENTAL SETUP 480 13.7.2 PRETREATMENT 480 13.7.3 RESULTS 481 XVI I CONTENTS 13.8 ELECTRODEPOSITION OF NICKEL COATINGS FROM A CHOLINE CHLORIDE: ETHYLENE-GLYCOL-BASED DEEP EUTECTIC SOLVENT 481 REFERENCES 482 14 FUTURE DIRECTIONS AND CHALLENGES 483 FRANK ENDRES, ANDREW R ABBOTT, AND DOUGLAS MACFARLANE 14.1 IMPURITIES 483 14.2 COUNTER ELECTRODES/COMPARTMENTS 485 14.3 IONIC LIQUIDS FOR REACTIVE (NANO)MATERIALS 486 14.4 NANOMATERIALS/NANOPARTICLES 486 14.5 CATION/ANION EFFECTS 487 14.6 POLYMERS FOR BATTERIES AND SOLAR CELLS 487 14.7 VARIABLE-TEMPERATURE STUDIES 488 14.8 INTRINSIC PROCESS SAFETY 488 14.9 ECONOMICS (PRICE, RECYCLING) 489 14.10 FUNDAMENTAL KNOWLEDGE GAPS 490 INDEX 491
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spelling	Electrodeposition from ionic liquids edited by Frank Endres, Andrew Abbott, and Douglas MacFarlane Second, completely revised and enlarged edition Weinheim Wiley-VCH [2017] © 2017 xxxi, 504 Seiten Illustrationen, Diagramme (teilweise farbig) txt rdacontent n rdamedia nc rdacarrier Elektrolytlösung (DE-588)4133913-7 gnd rswk-swf Galvanische Abscheidung (DE-588)4316091-8 gnd rswk-swf Chemie Chemistry Dünne Schichten, Oberflächen u. Grenzflächen Electrochemistry Elektrochemie Farben, Pigmente, Beschichtungen, Farbstoffe Materials Science Materialwissenschaften Paints, Pigments, Coatings, Dyes Thin Films, Surfaces & Interfaces Galvanische Abscheidung (DE-588)4316091-8 s Elektrolytlösung (DE-588)4133913-7 s DE-604 Endres, Frank 1966- (DE-588)114564078 edt Abbott, Andrew edt MacFarlane, Douglas edt Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, ePDF 978-3-527-68273-7 Erscheint auch als Online-Ausgabe, oBook 978-3-527-68270-6 Erscheint auch als Online-Ausgabe, ePub 978-3-527-68272-0 Erscheint auch als Online-Ausgabe, Mobi 978-3-527-68271-3 http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-33602-9/ Verlag DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029442134&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Electrodeposition from ionic liquids Elektrolytlösung (DE-588)4133913-7 gnd Galvanische Abscheidung (DE-588)4316091-8 gnd
subject_GND	(DE-588)4133913-7 (DE-588)4316091-8
title	Electrodeposition from ionic liquids
title_auth	Electrodeposition from ionic liquids
title_exact_search	Electrodeposition from ionic liquids
title_full	Electrodeposition from ionic liquids edited by Frank Endres, Andrew Abbott, and Douglas MacFarlane
title_fullStr	Electrodeposition from ionic liquids edited by Frank Endres, Andrew Abbott, and Douglas MacFarlane
title_full_unstemmed	Electrodeposition from ionic liquids edited by Frank Endres, Andrew Abbott, and Douglas MacFarlane
title_short	Electrodeposition from ionic liquids
title_sort	electrodeposition from ionic liquids
topic	Elektrolytlösung (DE-588)4133913-7 gnd Galvanische Abscheidung (DE-588)4316091-8 gnd
topic_facet	Elektrolytlösung Galvanische Abscheidung
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-33602-9/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029442134&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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