Verfügbarkeit: Electrochemistry at metal and semiconductor electrodes

Electrochemistry at metal and semiconductor electrodes:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Sato, Norio (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam [u.a.] Elsevier 1998
Schlagworte:	Elektrochemie - Halbleiterelektrode Metall Elektrode Elektrochemie Elektrodenprozess Halbleiterelektrode
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XI, 400 S. graph. Darst.
ISBN:	0444828060

Internformat

MARC


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Datensatz im Suchindex

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adam_text	CONTENTS CHAPTER 1 THE ENERGY LEVEL OF PARTICLES 1 1.1 PARTICLES AND PARTICLE ENSEMBLES 1 1.2 CHEMICAL POTENTIAL AND ELECTROCHEMICAL POTENTIAL 4 1.3 ELECTROCHEMICAL POTENTIAL OF ELECTRONS 5 1.4 THE REFERENCE LEVEL OF PARTICLE ENERGY 8 1.5 ELECTROSTATIC POTENTIAL OF CONDENSED PHASES 9 1.6 ENERGY LEVELS OF CHARGED PARTICLES IN CONDENSED PHASES 11 REFERENCES 13 CHAPTER 2 THE ENERGY LEVEL OF ELECTRONS 15 2.1 ENERGY LEVELS OF ELECTRONS IN CONDENSED PHASES 15 2.2 ELECTRONS IN METALS 19 2.2.1 ENERGY BAND AND THE FERMI LEVEL 19 2.2.2 THE REAL POTENTIAL AND THE CHEMICAL POTENTIAL OF ELECTRONS IN METALS 21 2.3 ELECTRON ENERGY BANDS OF SEMICONDUCTORS 24 2.4 ELECTRONS AND HOLES IN SEMICONDUCTORS 27 2.4.1 INTRINSIC SEMICONDUCTORS 27 2.4.2 N-TYPE AND P-TYPE SEMICONDUCTORS 29 2.5 ENERGY LEVELS OF ELECTRONS IN SEMICONDUCTORS 32 2.6 METAL OXIDES 35 2.6.1 FORMATION OF ELECTRON ENERGY BANDS 35 2.6.2 LOCALIZED ELECTRON LEVELS 38 2.7 THE SURFACE OF SEMICONDUCTORS 39 2.7.1 THE SURFACE STATE 39 2.7.2 THE SPACE CHARGE LAYER 42 2.7.3 SURFACE DEGENERACY (QUASI-METALLIZATION OF SURFACES) 44 2.8 AMORPHOUS SEMICONDUCTORS 44 2.9 ELECTRON ENERGY BANDS OF LIQUID WATER 45 2.10 REDOX ELECTRONS IN AQUEOUS SOLUTION 47 2.10.1 ELECTRON LEVELS OF GASEOUS REDOX PARTICLES 47 2.10.2 ELECTRON LEVELS OF HYDRATED REDOX PARTICLES 48 2.10.3 FLUCTUATION OF ELECTRON ENERGY LEVELS 51 2.10.4 THE FERMI LEVEL OF HYDRATED REDOX ELECTRONS 53 2.11 THE ELECTRON LEVEL OF NORMAL HYDROGEN ELECTRODE 55 REFERENCES 58 CHAPTER 3 THE ENERGY LEVEL OF IONS 61 3.1 IONIC DISSOCIATION OF GASEOUS MOLECULES 61 3.2 METAL ION LEVELS IN SOLID METALS 63 3.2.1 THE UNITARY ENERGY LEVEL OF SURFACE METAL IONS 63 3.2.2 METAL ION LEVELS AT THE SURFACE AND IN THE INTERIOR 65 3.3 ION LEVELS OF COVALENT SEMICONDUCTORS 67 3.3.1 THE UNITARY LEVEL OF SURFACE IONS 67 3.3.2 ION LEVELS AT THE SURFACE AND IN THE INTERIOR 69 3.4 ION LEVELS OF COMPOUND SEMICONDUCTORS 71 3.4.1 THE UNITARY LEVEL OF SURFACE IONS 71 3.4.2 ION LEVELS AT THE SURFACE AND IN THE INTERIOR 74 3.5 ION LEVELS IN AQUEOUS SOLUTION 76 3.5.1 LEVELS OF HYDRATED IONS 76 3.5.2 PROTON LEVELS IN AQUEOUS SOLUTION 78 3.6 THERMODYNAMIC REFERENCE LEVEL FOR IONS 85 REFERENCES 86 CHAPTER 4 ELECTRODE POTENTIAL 87 4.1 ELECTRODE 87 4.1.1 ELECTRODE 87 4.1.2 ANODE AND CATHODE 88 4.1.3 ELECTRONIC ELECTRODE AND IONIC ELECTRODE 88 4.1.4 POLARIZABLE AND NONPOLARIZABLE ELECTRODES 89 4.2 THE INTERFACE OF TWO CONDENSED PHASES 90 4.2.1 POTENTIAL DIFFERENCE BETWEEN TWO CONTACTING PHASES 90 4.2.2 THE INTERFACE OF ZERO CHARGE 93 4.2.3 INTERFACES IN CHARGE TRANSFER EQUILIBRIUM 94 4.3 ELECTRODE POTENTIAL 96 4.3.1 ELECTRODE POTENTIAL DEFINED BY ELECTRON ENERGY LEVELS 96 4.3.2 ELECTRODE POTENTIAL AND ION ENERGY LEVELS IN ELECTRODES 101 4.4 ELECTRODE POTENTIAL IN CHARGE TRANSFER EQUILIBRIUM 103 4.4.1 ELECTRODE POTENTIAL IN ELECTRON TRANSFER EQUILIBRIUM 103 4.4.2 ELECTRODE POTENTIAL IN ION TRANSFER EQUILIBRIUM 105 4.4.3 POTENTIAL OF FILM-COVERED IONIC ELECTRODES IN EQUILIBRIUM 107 4.4.4 POTENTIAL OF GAS ELECTRODES IN EQUILIBRIUM 108 4.5 MEASUREMENT OF ELECTRODE POTENTIALS 110 4.6 POTENTIAL OF THE EMERSED ELECTRODE 112 4.6.1 POTENTIAL OF EMERSED ELECTRODES IN VACUUM 113 4.6.2 POTENTIAL OF EMERSED ELECTRODES IN INACTIVE GAS 114 REFERENCES 117 CHAPTER 5 ELECTRIC DOUBLE LAYER AT ELECTRODE INTERFACES 119 5.1 SOLID SURFACE AND ADSORPTION 119 5.1.1 CLEAN SURFACE OF SOLIDS 119 5.1.2 ADSORPTION 121 5.1.3 ELECTRON LEVEL OF ADSORBED PARTICLES 122 5.2 ELECTRIC DOUBLE LAYER AT SOLID/AQUEOUS SOLUTION INTERFACES 127 5.2.1 ELECTRIC DOUBLE LAYER MODEL 127 5.2.2 DIFFUSE CHARGE LAYER (SPACE CHARGE LAYER) 129 5.3 THE POTENTIAL OF ZERO CHARGE ON METAL ELECTRODES 132 5.3.1 CLASSICAL MODEL OF THE COMPACT DOUBLE LAYER AT INTERFACES 132 5.3.2 THE POTENTIAL OF ZERO CHARGE 135 5.4 THERMODYNAMICS OF ADSORPTION ON METAL ELECTRODES 138 5.4.1 GIBBS ADSORPTION EQUATION 138 5.4.2 ION ADSORPTION ON MERCURY ELECTRODES 139 5.4.3 CONTACT ADSORPTION OF IONS 142 5.5 ELECTRIC DOUBLE LAYER AT METAL ELECTRODES 143 5.5.1 INTERFACIAL ELECTRIC CAPACITY (ELECTRODE CAPACITY) 143 5.5.2 THE EFFECTIVE IMAGE PLANE ON METAL SURFACES 144 5.5.3 THE CLOSEST APPROACH OF WATER MOLECULES TO ELECTRODE INTERFACES 146 5.5.4 ELECTRIC CAPACITY OF THE COMPACT LAYER 148 5.5.5 POTENTIAL DIFFERENCE ACROSS THE COMPACT DOUBLE LAYER 150 5.6 CONTACT ADSORPTION AND ELECTRIC DOUBLE LAYER 151 5.6.1 CONTACT ADSORPTION AND WORK FUNCTION 151 5.6.2 INTERFACIAL DIPOLE MOMENT INDUCED BY CONTACT ADSORPTION 153 5.6.3 INTERFACIAL POTENTIAL DIFFERENCE AFFECTED BY CONTACT ADSORPTION 155 5.7 PARTICLE ADSORPTION ON METAL ELECTRODES 158 5.7.1 ADSORPTION OF WATER MOLECULES 158 5.7.2 COADSORPTION OF WATER MOLECULES AND THIRD-PARTICLES 161 5.7.3 SURFACE LATTICE TRANSFORMATION DUE TO CONTACT ADSORPTION 162 5.7.4 ELECTRON ENERGY LEVELS OF ADSORBED PARTICLES 165 5.8 ELECTRIC DOUBLE LAYER AT SEMICONDUCTOR ELECTRODES 168 5.8.1 ELECTRIC DOUBLE LAYER MODEL 168 5.8.2 POTENTIAL DISTRIBUTION ACROSS THE ELECTRODE INTERFACE 169 5.9 BAND EDGE LEVEL PINNING AND FERMI LEVEL PINNING 171 5.10 THE SPACE CHARGE LAYER OF SEMICONDUCTOR ELECTRODES 174 5.10.1 SPACE CHARGE LAYERS 174 5.10.2 DIFFERENTIAL ELECTRIC CAPACITY OF SPACE CHARGE LAYERS 176 5.10.3 SCHOTTKY BARRIER 181 5.11 THE COMPACT LAYER AT SEMICONDUCTOR ELECTRODES 181 5.11.1 HYDROXYLATION OF ELECTRODE INTERFACES 181 5.11.2 THE COMPACT LAYER 184 5.11.3 DIFFERENTIAL ELECTRIC CAPACITY OF ELECTRODE INTERFACES 187 5.12 THE SURFACE STATE OF SEMICONDUCTOR ELECTRODES 188 5.12.1 SURFACE STATES 188 5.12.2 DIFFERENTIAL ELECTRIC CAPACITY OF SURFACE STATES 190 5.13 THE FLAT BAND POTENTIAL OF SEMICONDUCTOR ELECTRODES 192 5.13.1 FLAT BAND POTENTIAL 192 5.13.2 BAND EDGE POTENTIAL 195 REFERENCES 196 CHAPTER 6 ELECTROCHEMICAL CELLS 201 6.1 ELECTROCHEMICAL CELLS 201 6.2 ELECTROMOTIVE FORCE OF ELECTROCHEMICAL CELLS 204 6.3 EQUILIBRIUM POTENTIAL OF ELECTRODE REACTIONS 206 6.3.1 EQUILIBRIUM POTENTIAL OF ELECTRON TRANSFER REACTIONS 206 6.3.2 EQUILIBRIUM POTENTIAL OF ION TRANSFER REACTIONS 208 6.4 ELECTROCHEMICAL REFERENCE LEVEL FOR HYDRATED IONS 210 REFERENCES 211 CHAPTER 7 ELECTRODE REACTIONS 213 7.1 ELECTRODE REACTIONS 213 7.1.1 ELECTRON TRANSFER AND ION TRANSFER REACTIONS 213 7.1.2 CATHODIC AND ANODIC REACTIONS 213 7.1.3 ELECTRON TRANSFER OF HYDRATED PARTICLES AND ADSORBED PARTICLES 214 7.2 REACTION RATE 216 7.2.1 FORWARD AND BACKWARD REACTION AFFINITIES 216 7.2.2 REACTION RATE 217 7.2.3 POLARIZATION CURVE OF ELECTRODE REACTIONS 218 7.3 REACTION MECHANISM 220 7.3.1 THE STOICHIOMETRIC NUMBER OF REACTIONS 220 7.3.2 THE ACTIVATION ENERGY 221 7.3.3 QUANTUM TUNNELING AND ACTIVATED FLOW OF PARTICLES 223 7.3.4 THE REACTION ORDER 225 7.4 RATE-DETERMINING STEPS OF REACTIONS 226 7.4.1 REACTION OF ELEMENTARY STEPS IN SERIES 226 7.4.2 REACTION RATE DETERMINED BY A SINGLE STEP 228 7.4.3 REACTION RATE DETERMINED BY MULTIPLE STEPS 229 7.4.4 AFFINITY DISTRIBUTED TO ELEMENTARY STEPS 230 7.4.5 RATE OF MULTISTEP REACTIONS 232 REFERENCES 233 CHAPTER 8 ELECTRODE REACTIONS IN ELECTRON TRANSFER. 235 8.1 ELECTRON TRANSFER AT METAL ELECTRODES 235 8.1.1 KINETICS OF ELECTRON TRANSFER 235 8.1.2 THE STATE DENSITY OF REDOX ELECTRONS 238 8.1.3 EXCHANGE REACTION CURRENT AT THE EQUILIBRIUM POTENTIAL 240 8.1.4 REACTION CURRENT UNDER POLARIZATION 242 8.1.5 DIFFUSION AND REACTION RATE 245 8.2 ELECTRON TRANSFER AT SEMICONDUCTOR ELECTRODES 249 8.2.1 SEMICONDUCTOR ELECTRODES COMPARED WITH METAL ELECTRODES 249 8.2.2 THE CONDUCTION BAND AND THE VALENCE BAND MECHANISMS 250 8.2.3 ELECTRON STATE DENSITY IN REDOX ELECTRODE REACTIONS 252 8.2.4 EXCHANGE REACTION CURRENT AT THE EQUILIBRIUM POTENTIAL 254 8.3 REACTION CURRENT AT SEMICONDUCTOR ELECTRODES 258 8.3.1 REACTION CURRENT UNDER POLARIZATION 258 8.3.2 REACTION CURRENT VERSUS POTENTIAL CURVE 262 8.3.3 THE TRANSPORT OVERVOLTAGE OF MINORITY CARRIERS 266 8.3.4 RECOMBINATION OF MINORITY CARRIERS 267 8.3.5 POLARIZATION CURVES OF REDOX ELECTRON TRANSFERS 268 8.3.6 REDOX FERMI LEVEL AND BAND EDGE LEVEL 270 8.3.7 ELECTRON TRANSFER VIA THE SURFACE STATE 272 8.3.8 ELECTRON TUNNELING THROUGH THE SPACE CHARGE LAYER 274 8.4 COMPLEXATION AND ADSORPTION IN ELECTRON TRANSFER REACTIONS .....274 8.4.1 COMPLEXATION SHIFTS THE REDOX ELECTRON LEVEL 275 8.4.2 CONTACT ADSORPTION SHIFTS THE REDOX ELECTRON LEVEL 278 8.5 ELECTRON TRANSFER AT FILM-COVERED METAL ELECTRODES 281 8.5.1 ELECTRON TRANSFER BETWEEN THE ELECTRODE METAL AND THE REDOX PARTICLES 282 8.5.2 ELECTRON TRANSFER BETWEEN THE FILM AND THE REDOX PARTICLES 284 8.5.3 POLARIZATION CURVES OBSERVED 286 REFERENCES 287 CHAPTER 9 ELECTRODE REACTIONS IN ION TRANSFER 289 9.1 METAL ION TRANSFER AT METAL ELECTRODES 289 9.1.1 METAL ION TRANSFER IN A SINGLE ELEMENTAL STEP 289 9.1.2 METAL ION TRANSFER IN A SERIES OF TWO ELEMENTAL STEPS 294 9.2 ION TRANSFER AT SEMICONDUCTOR ELECTRODES 298 9.2.1 SURFACE ATOM IONIZATION OF COVALENT SEMICONDUCTOR ELECTRODES 298 9.2.2 DISSOLUTION OF COVALENT SEMICONDUCTORS 302 9.2.3 DISSOLUTION OF IONIC SEMICONDUCTORS 305 9.2.4 OXIDATIVE AND REDUCTIVE DISSOLUTION OF IONIC SEMICONDUCTORS 309 9.3 ION ADSORPTION ON METAL ELECTRODES 314 9.3.1 ION ADSORPTION EQUILIBRIUM 314 9.3.2 ELECTRON LEVELS OF ADSORBED IONS 315 9.4 ION ADSORPTION ON SEMICONDUCTOR ELECTRODES 317 9.4.1 ION ADSORPTION EQUILIBRIUM 317 9.4.2 ELECTRON LEVELS OF ADSORBED IONS 317 9.4.3 PROTON LEVELS ON ELECTRODE SURFACES 319 REFERENCES 322 CHAPTER 10 SEMICONDUCTOR PHOTOELECTRODES 325 10.1 QUASI-FERMI LEVEL OF EXCITED ELECTRONS AND HOLES 325 10.1.1 QUASI-FERMI LEVEL 325 10.1.2 QUASI-FERMI LEVELS AND ELECTRODE REACTIONS 328 10.2 PHOTOPOTENTIAL 330 10.3 PHOTOEXCITED ELECTRODE REACTIONS 334 10.3.1 PHOTOEXCITED ELECTRODE REACTION CURRENT (PHOTOCURRENT) 334 10.3.2 THE RANGE OF ELECTRODE POTENTIAL FOR PHOTOELECTRODE REACTIONS 338 10.3.3 THE FLAT BAND POTENTIAL OF PHOTOEXCITED ELECTRODES 344 10.4 THE RATE OF PHOTOELECTRODE REACTIONS 347 10.4.1 ANODIC TRANSFER REACTIONS OF PHOTOEXCITED HOLES 347 10.4.2 GENERATION AND TRANSPORT OF HOLES 349 10.4.3 INTERFACIAL OVERVOLTAGE OF HOLE TRANSFER 350 10.4.4 RECOMBINATION OF PHOTOEXCITED HOLES IN ANODIC REACTIONS 352 10.4.5 CATHODIC HOLE INJECTION REACTIONS 354 10.5 PHOTOELECTROCHEMICAL CELLS 357 10.6 PHOTOELECTROLYTIC CELLS 357 10.6.1 PHOTOELECTROLYTIC CELLS OF METAL AND SEMICONDUCTOR ELECTRODES 357 10.6.2 PHOTOELECTROLYTIC CELLS OF TWO SEMICONDUCTOR ELECTRODES 364 10.7 PHOTOVOLTAIC CELLS 367 REFERENCES 371 CHAPTER 11 MIXED ELECTRODES 373 11.1 THE SINGLE ELECTRODE AND THE MIXED ELECTRODE 373 11.2 CATALYTIC REACTIONS ON MIXED ELECTRODES 375 11.3 MIXED ELECTRODE POTENTIAL 377 11.4 PASSIVATION OF METAL ELECTRODES 381 11.4.1 POLARIZATION CURVE OF ANODIC METAL DISSOLUTION 381 11.4.2 METAL DISSOLUTION IN THE PASSIVE AND TRANSPASSIVE STATES 383 11.4.3 SPONTANEOUS PASSIVATION OF METAL ELECTRODES 387 REFERENCES 389 LIST OF SYMBOLS 391 INDEX 397
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physical	XI, 400 S. graph. Darst.
publishDate	1998
publishDateSearch	1998
publishDateSort	1998
publisher	Elsevier
record_format	marc
spelling	Sato, Norio Verfasser aut Electrochemistry at metal and semiconductor electrodes by Norio Sato. Amsterdam [u.a.] Elsevier 1998 XI, 400 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Elektrochemie - Halbleiterelektrode Metall (DE-588)4038860-8 gnd rswk-swf Elektrode (DE-588)4014247-4 gnd rswk-swf Elektrochemie (DE-588)4014241-3 gnd rswk-swf Elektrodenprozess (DE-588)4151783-0 gnd rswk-swf Halbleiterelektrode (DE-588)4158799-6 gnd rswk-swf Elektrodenprozess (DE-588)4151783-0 s DE-604 Elektrode (DE-588)4014247-4 s Metall (DE-588)4038860-8 s Elektrochemie (DE-588)4014241-3 s Halbleiterelektrode (DE-588)4158799-6 s 1\p DE-604 OEBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008492889&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Sato, Norio Electrochemistry at metal and semiconductor electrodes Elektrochemie - Halbleiterelektrode Metall (DE-588)4038860-8 gnd Elektrode (DE-588)4014247-4 gnd Elektrochemie (DE-588)4014241-3 gnd Elektrodenprozess (DE-588)4151783-0 gnd Halbleiterelektrode (DE-588)4158799-6 gnd
subject_GND	(DE-588)4038860-8 (DE-588)4014247-4 (DE-588)4014241-3 (DE-588)4151783-0 (DE-588)4158799-6
title	Electrochemistry at metal and semiconductor electrodes
title_auth	Electrochemistry at metal and semiconductor electrodes
title_exact_search	Electrochemistry at metal and semiconductor electrodes
title_full	Electrochemistry at metal and semiconductor electrodes by Norio Sato.
title_fullStr	Electrochemistry at metal and semiconductor electrodes by Norio Sato.
title_full_unstemmed	Electrochemistry at metal and semiconductor electrodes by Norio Sato.
title_short	Electrochemistry at metal and semiconductor electrodes
title_sort	electrochemistry at metal and semiconductor electrodes
topic	Elektrochemie - Halbleiterelektrode Metall (DE-588)4038860-8 gnd Elektrode (DE-588)4014247-4 gnd Elektrochemie (DE-588)4014241-3 gnd Elektrodenprozess (DE-588)4151783-0 gnd Halbleiterelektrode (DE-588)4158799-6 gnd
topic_facet	Elektrochemie - Halbleiterelektrode Metall Elektrode Elektrochemie Elektrodenprozess Halbleiterelektrode
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008492889&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT satonorio electrochemistryatmetalandsemiconductorelectrodes

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