Verfügbarkeit: Characterization of solid materials and heterogeneous catalysts

Characterization of solid materials and heterogeneous catalysts: from structure to surface reactivity

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Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH
Schlagworte:	Werkstoffkunde Katalysator Spektroskopie Strukturaufklärung
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
ISBN:	3527326871 9783527326877 9783527645329

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adam_text	IMAGE 1 CONTENTS ABOUT T H E EDITORS X I X LIST O F CONTRIBUTORS X X I PREFACE X X V I I MICHEL CHE A N D JACQUES C. VIDRINE GENERAL INTRODUCTION X X X I MICHEL CHE A N D JACQUES C. VIDRINE OVERVIEW O N PHYSICAL TECHNIQUES FOR INVESTIGATING MODEL SOLID CATALYSTS XLV GERHARD ERTL OVERVIEW O N PHYSICAL TECHNIQUES FOR INVESTIGATING POROUS CATALYSTS LV JOHN MEURIG THOMAS VOLUME 1 PART O N E MOLECULAR/LOCAL SPECTROSCOPIES 1 1 INFRARED SPECTROSCOPY 3 FR6D6RIC THIBAULT-STARZYK AND FRANGOISE M A U G I 1.1 INTRODUCTION 3 1.2 PRINCIPLES O F IR SPECTROSCOPY A N D BASIC KNOWLEDGE FOR ITS U S E 1.2.1 IR LIGHT 3 1.2.2 MATTER-RADIATION INTERACTION 4 1.2.3 SPECTROMETRY, INTERFEROMETRY 4 1.2.4 LIMITATIONS O F A N D PROBLEMS WITH T H E FOURIER TRANSFORM 6 1.3 EXPERIMENTAL CONSIDERATIONS 7 1.3.1 TECHNICAL ASPECTS O F T H E FOURIER TRANSFORM 7 1.3.2 PRACTICAL I M P L E M E N T A T I O N 8 1.3.2.1 TRANSMISSION EXPERIMENTS, QUANTITATIVE ASPECTS 8 1.3.2.2 DIFFUSE REFLECTION 9 1.4 U S E O F IR SPECTROSCOPY TO CHARACTERIZE SOLIDS 11 1.4.1 IR S P E C T R U M A N D STRUCTURE O F A SOLID 11 HTTP://D-NB.INFO/1011200287 IMAGE 2 V I I I CONTENTS 1.4.1.1 T H E EXAMPLE O F ZEOLITES 11 1.4.1.2 SUBSTITUTION O F METALS I N T H E STRUCTURE O F ZEOLITES 13 1.4.2 ACTIVATION: CLEANING T H E S A M P L E TO OBSERVE SURFACE SITES 13 1.4.2.1 EXPERIMENTAL ASPECTS 13 1.4.2.2 ACTIVATION - CLEANING T H E S A M P L E TO OBSERVE SURFACE SITES 14 1.4.3 T H E S P E C T R U M O F O H G R O U P S 17 1.4.3.1 O H G R O U P S O N A L U M I N A 18 1.4.3.2 O H G R O U P S I N ZEOLITES 18 1.4.4 CHARACTERIZATION O F ACIDITY WITH PROBE MOLECULES 2 0 1.4.4.1 BREINSTED SITES: H Y D R O G E N BONDING A N D IR SPECTROSCOPY 21 1.4.4.2 MOLECULAR PROBES FOR LEWIS ACIDITY 2 4 1.4.4.3 C O M M O N PROBE MOLECULES FOR ACIDITY 2 4 1.4.5 CHARACTERIZATION O F BASICITY WITH PROBE MOLECULES 3 2 1.4.5.1 C 0 2 A S A PROBE FOR BASIC SITES 3 2 1.4.5.2 PROTIC MOLECULES 33 1.4.5.3 METHANOL 33 1.4.6 PROBES FOR SUPPORTED METAL CATALYSTS 3 4 1.4.7 PROBES FOR SULFIDE CATALYSTS 36 1.4.8 QUANTITATIVE ANALYSIS BY COUPLING IR SPECTROSCOPY WITH GRAVIMETRY 3 8 1.5 APPLICATION TO SURFACE REACTIVITY: OPERANDO SPECTROSCOPY 3 9 1.5.1 EXPERIMENTAL SETUP FOR OPERANDO IR SPECTROSCOPY A N D REACTIONS CONDITIONS 4 0 1.5.2 EXAMPLES O F OPERANDO IR M E A S U R E M E N T S 4 0 1.6 CONCLUSION 4 5 REFERENCES 4 5 2 RAMAN A N D UV-RAMAN SPECTROSCOPIES 4 9 FENGTAO FAN, ZHAOCHI FENG, AND CAN LI 2.1 INTRODUCTION 4 9 2.1.1 R A M A N SPECTROSCOPY 4 9 2.1.2 FT-RAMAN SPECTROSCOPY 51 2.1.3 UV R A M A N SPECTROSCOPY 5 3 2.1.4 RESONANCE R A M A N SPECTROSCOPY 5 3 2.2 CHARACTERIZATION O F ACTIVE SITES A N D P H A S E STRUCTURE O F METAL OXIDES 5 5 2.2.1 IDENTIFICATION O F T H E ACTIVE SPECIES O N METAL OXIDES 5 5 2.2.2 PHASE TRANSFORMATION I N T H E SURFACE REGION O F METAL OXIDES 5 6 2.3 CHARACTERIZATION O F SURFACE METAL OXIDE SPECIES O N SUPPORTED METAL OXIDES 5 9 2.4 E L E C T R O N - P H O N O N COUPLING I N NANOSTRUCTURED MATERIALS 63 2.5 CHARACTERIZATION O F S P 2 C A R B O N MATERIALS 6 4 2.6 CHARACTERIZATION O F TRANSITION METAL-CONTAINING MICROPOROUS A N D MESOPOROUS MATERIALS 6 7 2.6.1 IDENTIFICATION O F T H E ISOLATED QUADRIVALENT TRANSITION METAL SITES I N MICROPOROUS A N D MESOPOROUS MATERIALS 6 7 2.6.2 IDENTIFICATION O F T H E ISOLATED TRIVALENT TRANSITION METAL SITES I N MICROPOROUS A N D MESOPOROUS MATERIALS 6 9 IMAGE 3 CONTENTS \| I X 2.6.3 IDENTIFICATION O F EXTRA-FRAMEWORK ACTIVE SITES I N MICROPOROUS A N D MESOPOROUS MATERIALS 71 2.7 SYNTHESIS M E C H A N I S M S O F MOLECULAR SIEVES 7 3 2.7.1 ASSEMBLING ZEOLITES F R O M PREFABRICATED U N I T S 73 2.7.2 ASSEMBLING FE-ZSM-5 FROM ACTIVE CENTERS A N D SILICATE BUILDING UNITS 74 2.7.3 A REAL-TIME PROBING FOR T H E CRYSTALLIZATION PROCESS: IN SITU R A M A N SPECTROSCOPY 76 2.8 CONCLUSIONS 8 0 REFERENCES 81 3 ELECTRONIC SPECTROSCOPY: ULTRA VIOLET-VISIBLE A N D N E A R IR SPECTROSCOPIES 8 9 FRIEDERIKE C.JENTOJT 3.1 INTRODUCTION A N D OVERVIEW 8 9 3.1.1 SCOPE 8 9 3.1.2 HISTORY 8 9 3.1.3 OVERVIEW 9 1 3.2 UV-VIS-NIR SPECTRA 93 3.2.1 SPECTRA REPRESENTATION 93 3.2.1.1 SPECTRAL POSITION O F ABSORPTION FEATURES 93 3.2.1.2 INTENSITY O F ABSORPTION FEATURES 93 3.2.2 SPECTRA PROCESSING 9 8 3.2.3 TRANSITIONS I N MOLECULAR SPECIES 99 3.2.3.1 SELECTION RULES 99 3.2.3.2 INDIVIDUAL MOLECULES 9 9 3.2.3.3 COMPOSITE SPECIES: METAL COMPLEXES 101 3.2.4 TRANSITIONS I N EXTENDED SOLID STRUCTURES 104 3.2.4.1 BANDGAPS 104 3.2.4.2 METALLIC COLLOIDS: LOCALIZED SURFACE P L A S M O N RESONANCE 106 3.2.5 QUANTITATIVE ANALYSIS 107 3.3 EXPERIMENTAL CONSIDERATIONS 108 3.3.1 INSTRUMENTATION: SPECTROMETERS, SOURCES, A N D DETECTORS 108 3.3.1.1 OVERVIEW O F ESSENTIAL I N S T R U M E N T C O M P O N E N T S 108 3.3.1.2 I N S T R U M E N T SELECTION CRITERIA FOR M E A S U R E M E N T S O F SOLIDS 110 3.3.2 OPTICAL CONFIGURATION A N D CELLS FOR CONTROLLED ENVIRONMENTS 110 3.3.2.1 TRANSMISSION M O D E 111 3.3.2.2 CELLS FOR U S E I N T R A N S M I S S I O N M O D E 111 3.3.2.3 DIFFUSE REFLECTION MODE: INTEGRATING SPHERES 112 3.3.2.4 CELLS FOR U S E WITH INTEGRATING SPHERES 113 3.3.2.5 DIFFUSE REFLECTION MODE: MIRROR OPTICS 115 3.3.2.6 CELLS FOR U S E WITH MIRROR OPTICS A T T A C H M E N T 116 3.3.2.7 DIFFUSE REFLECTION MODE: FIBER-OPTIC PROBES 117 3.3.2.8 CELLS FOR U S E WITH FIBER-OPTIC PROBES 118 3.3.2.9 C O M B I N A T I O N O F U V - V I S - N I R W I T H O T H E R TECHNIQUES 119 3.4 FORMATION A N D ALTERATION O F SOLIDS 120 IMAGE 4 X CONTENTS 3.4.1 PRECURSOR ANALYSIS 120 3.4.2 SOLID FORMATION 121 3.4.3 CHARACTERIZATION O F SOLIDS 122 3.4.3.1 I S O M O R P H O U S SUBSTITUTION O F FRAMEWORK CATIONS I N ZEOLITES 123 3.4.3.2 I O N EXCHANGE I N ZEOLITES 124 3.4.3.3 DISPERSION O F SUPPORTED METAL OXIDE SPECIES 125 3.4.3.4 BANDGAP DETERMINATION I N SEMICONDUCTORS 125 3.4.3.5 SPATIALLY RESOLVED SPECTROSCOPY O F SPECIMENS WITH COMPOSITIONAL VARIATION O N T H E MILLIMETER SCALE 127 3.4.3.6 SPATIALLY RESOLVED SPECTROSCOPY O F SPECIMENS WITH COMPOSITIONAL VARIATION O N T H E MICROMETER SCALE 127 3.4.4 PROBING O F SURFACE PROPERTIES 129 3.4.5 DYNAMIC EXPERIMENTS 129 3.4.5.1 DEHYDRATION 129 3.5 SURFACE REACTIVITY A N D CATALYSIS 130 3.5.1 OXIDATION STATE A N D COORDINATION C H A N G E S 130 3.5.1.1 OXIDATION STATE O F TRANSITION METALS I N SUPPORTED M O X M O I E T I E S O R SOLID SOLUTIONS 130 3.5.1.2 SUPPORTED METALS: OXIDATION STATE A N D PARTICLE SIZE A N D SHAPE 131 3.5.2 HYDROCARBON SPECIES O N SURFACES 133 3.5.2.1 REFERENCE SPECTRA 133 3.5.2.2 SURFACE HYDROCARBON POOL U N D E R REACTION CONDITIONS 137 3.5.2.3 DEACTIVATION A N D REGENERATION 138 3.6 CONCLUSIONS 139 REFERENCES 140 4 PHOTOLUMINESCENCE SPECTROSCOPY 149 MASAYA MATSUOKA, MASAKAZU SAITO, A N D MASAKAZU ANPO 4.1 INTRODUCTION 149 4.2 BASIC PRINCIPLES O F PHOTOLUMINESCENCE 150 4.3 GENERAL ASPECTS O F PHOTOLUMINESCENCE M E A S U R E M E N T S 153 4.3.1 STEADY-STATE PHOTOLUMINESCENCE M E A S U R E M E N T S 153 4.3.2 TIME-RESOLVED PHOTOLUMINESCENCE M E A S U R E M E N T S 154 4.4 CHARACTERIZATION O F CATALYSTS BY P H O T O L U M I N E S C E N C E A N D TIME-RESOLVED PHOTOLUMINESCENCE SPECTROSCOPY 156 4.4.1 I N SITU PHOTOLUMINESCENCE O F MICROCRYSTALLINE M G O 156 4.4.2 IN SITU PHOTOLUMINESCENCE O F BULK T I 0 2 P H O T O C A T A L Y S T S 159 4.4.3 IN SITU PHOTOLUMINESCENCE O F HIGHLY DISPERSED TRANSITION METAL IONS A N D OXIDES 163 4.4.3.1 V-CONTAINING BEA ZEOLITE CATALYSTS 163 4.4.3.2 A G + / M F I CATALYSTS 165 4.5 INVESTIGATIONS O F T H E DYNAMICS O F PHOTOCATALYSIS B Y TIME-RESOLVED PHOTOLUMINESCENCE SPECTROSCOPY 165 IMAGE 5 CONTENTS X I 4.5.1 DYNAMICS O F PHOTOCATALYTIC REACTIONS O N T I 0 2 P H O T O C A T A L Y S T S 1 6 6 4.5.2 DYNAMICS O F PHOTOCATALYTIC REACTIONS O N HIGHLY DISPERSED TRANSITION METAL ION A N D OXIDE CATALYSTS 169 4.5.2.1 CU +/ZEOLITE CATALYSTS 169 4.5.2.2 TI OXIDE/ZEOLITE CATALYSTS 175 4.5.2.3 M O 0 X I D E / S I 0 2 CATALYSTS 177 4.6 CONCLUSION 182 REFERENCES 182 5 NEUTRON SCATTERING 185 HERVI JOBIC 5.1 INTRODUCTION 185 5.2 INTRODUCTION TO T H E THEORY 186 5.2.1 PROPERTIES O F N E U T R O N S 186 5.2.2 SCATTERING CROSS-SECTIONS 187 5.2.3 C O H E R E N T A N D I N C O H E R E N T SCATTERING 188 5.3 EXPERIMENTAL 190 5.4 STRUCTURE 192 5.5 DYNAMICS 194 5.5.1 VIBRATIONAL SPECTROSCOPY 195 5.5.2 DIFFUSIVE MOTIONS 197 5.5.2.1 N E U T R O N SPIN-ECHO TECHNIQUE 198 5.5.2.2 ROTATIONAL MOTION 201 5.5.2.3 TRANSLATIONAL MOTION 2 0 2 5.6 CONCLUSION 208 REFERENCES 208 6 S U M FREQUENCY GENERATION A N D INFRARED REFLECTION ABSORPTION SPECTROSCOPY 211 KARIN FDTTINGER, CHRISTIAN WEILACH, AND CIINTHER RUPPRECHTER 6.1 INTRODUCTION 211 6.2 THEORETICAL BACKGROUND O F SFG 213 6.2.1 SFG SIGNAL INTENSITY A N D SELECTION RULES 2 1 5 6.2.2 SURFACE CONCENTRATION (COVERAGE) A N D SFG SIGNAL INTENSITY 216 6.3 SPECTROMETER SETUP 2 1 7 6.3.1 MODES O F OPERATION 2 1 8 6.4 CASE STUDIES 221 6.4.1 METAL SINGLE-CRYSTAL SURFACES 221 6.4.2 BIMETALLIC SURFACES 2 2 8 6.4.3 OXIDE SURFACES 233 6.4.4 METAL NANOPARTICLES O N OXIDE SURFACES 240 6.5 CONCLUSION 2 4 5 REFERENCES 245 IMAGE 6 X I I \| CONTENTS 7 INFRA RED REFLECTION ABSORPTION SPECTROSCOPY A N D POLARISATION MODULATION-IRRAS 2 5 5 CHRISTOPHE MITHIVIER A N D CLAIRE-MARIE PRADIER 7.1 INTRODUCTION 2 5 5 7.1.1 S O M E HISTORY 256 7.2 PRINCIPLE O F IRAS 258 7.3 PRINCIPLE O F PM-IRAS 261 7.4 APPLICATIONS O F IRAS A N D PM-IRAS 263 7.4.1 FORMATION O F SELF-ASSEMBLED MONOLAYERS 2 6 3 7.4.2 ADSORPTION O F ORGANIC SMALL MOLECULES A N D CHIRALITY 266 7.4.3 MONITORING SURFACE REACTIVITY A N D CATALYSIS 2 6 8 7.4.3.1 OXIDATION O F C O O N R U 268 7.4.3.2 C O HYDROGENATION O N R U 2 7 0 7.4.3.3 VINYL ACETATE SYNTHESIS REACTION O N P D 2 7 0 7.4.3.4 OXIDATION O F N H 3 A N D REDUCTION O F N 2 0 BY N H 3 O N C U 2 7 2 7.4.3.5 DECOMPOSITION O F METHANOL O N P D 2 7 5 7.4.3.6 DISSOCIATION O F N O O N R H 2 7 5 7.4.3.7 REACTIVITY/STORAGE O F N O O N METAL A N D OXIDE SURFACES 2 7 7 7.4.4 SURFACE FUNCTIONALIZATION A N D ELABORATION O F SENSORS 281 7.4.5 PM-IRAS I N T H E L I Q U I D PHASE 282 7.5 CONCLUSION 285 REFERENCES 286 8 NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY 289 LYNN F. GLADDEN, MICHAL LUTECKI, A N D JAMES MCGREGOR 8.1 INTRODUCTION A N D HISTORICAL PERSPECTIVE 289 8.2 THEORY 291 8.2.1 BASIC PRINCIPLES O F N M R 291 8.2.1.1 Z E E M A N INTERACTION 292 8.2.1.2 DIPOLAR INTERACTION 2 9 2 8.2.1.3 CHEMICAL SHIFT INTERACTION 2 9 3 8.2.1.4 Q U A D R U P O L A R INTERACTION 2 9 3 8.2.1.5 INDIRECT ELECTRON COUPLED INTERACTION 294 8.2.2 RELAXATION T I M E S 2 9 4 8.2.3 APPLICATION O F MAGNETIC FIELD GRADIENTS 2 9 5 8.2.3.1 MAGNETIC RESONANCE I M A G I N G 2 9 5 8.2.3.2 MEASURING FLOW A N D DIFFUSION 296 8.3 POPULAR N M R TECHNIQUES FOR STUDYING SOLIDS 2 9 7 8.3.1 GENERAL TECHNIQUES FOR BULK A N D SURFACE CHARACTERIZATION 298 8.3.2 STUDYING Q U A D R U P O L A R SYSTEMS W I T H I ' / 2 2 9 9 8.3.3 TECHNIQUES FOR M E A S U R I N G H E T E R O N U D E A R DIPOLAR COUPLINGS 3 0 0 8.4 CHARACTERIZATION O F HETEROGENEOUS CATALYSTS 3 0 2 8.4.1 SILICA-AND ALUMINA-CONTAINING MATERIALS 303 8.4.1.1 P U R E SILICAS A N D A L U M I N A S 303 8.4.1.2 ZEOLITES A N D ALUMINOSILICATES 3 0 4 IMAGE 7 CONTENTS X I I ) 8.4.2 VANADIUM-CONTAINING MATERIALS 3 0 5 8.4.3 SURFACE ACIDITY A N D BASICITY 306 8.5 POROSITY, ADSORPTION, A N D TRANSPORT PROCESSES 3 0 8 8.5.1 POROSITY 3 0 8 8.5.1.1 129XE N M R 308 8.5.1.2 TI A N D T2 RELAXOMETRY 3 0 9 8.5.1.3 MAGNETIC RESONANCE I M A G I N G 3 1 0 8.5.2 ADSORPTION 311 8.5.3 DIFFUSION 3 1 2 8.6 "IN SITU" N M R 313 8.6.1 EXPERIMENTAL APPARATUS 3 1 4 8.6.1.1 BATCH CONDITIONS 314 8.6.1.2 FLOW CONDITIONS 3 1 5 8.6.2 APPLICATIONS 3 1 7 8.6.2.1 BATCH CONDITIONS 3 1 7 8.6.2.2 FLOW CONDITIONS 3 2 2 8.6.2.3 COUPLING WITH A SECOND TECHNIQUE 3 2 5 8.7 TOWARDS "OPERANDO" STUDIES 3 2 9 8.8 CONCLUSION A N D OUTLOOK 331 REFERENCES 3 3 2 9 ELECTRON PARAMAGNETIC RESONANCE SPECTROSCOPY 343 PIOTR PIETRZYK, ZBIGNIEW SOJKA, A N D ELIO CIAMELLO 9.1 INTRODUCTION 343 9.1.1 INTERACTION O F MATTER WITH A MAGNETIC FIELD 343 9.1.2 EXPERIMENTAL APPROACHES I N EPR 344 9.2 PRINCIPLES O F EPR 3 4 5 9.2.1 T H E Z E E M A N EFFECT A N D T H E RESONANCE P H E N O M E N O N 346 9.2.2 SPIN RESONANCE A N D SPIN RELAXATION 3 4 8 9.3 ELECTRON-NUCLEUS HYPERFINE INTERACTION 3 5 0 9.3.1 T H E H Y D R O G E N A T O M (S = 1/2 A N D 1= 1/2) 3 5 3 9.3.2 HYPERFINE INTERACTION I N POLYNUCLEAR SYSTEMS 3 5 5 9.4 EXPERIMENTAL BACKGROUND 3 5 6 9.5 ANISOTROPY O F MAGNETIC INTERACTIONS I N EPR: T H E G, A , A N D D TENSORS 3 5 9 9.5.1 T H E G TENSOR 361 9.5.2 T H E A TENSOR 3 6 2 9.5.3 T H E ELECTRON-ELECTRON INTERACTIONS I N S 1/2 SYSTEMS: T H E D TENSOR 3 6 3 9.5.4 T H E SPIN-HAMILTONIAN 3 6 6 9.6 EPR SPECTRA A N D T H E SOLID STATE: SINGLE CRYSTAL VERSUS POWDERS 3 6 6 9.6.1 POWDER EPR SPECTRA 3 6 7 9.7 GUIDELINES TO INTERPRETATION O F EPR SPECTRA 3 6 8 9.7.1 CLASSIFICATION O F EPR SPECTRA A N D D E T E R M I N A T I O N O F SPECTRAL PARAMETERS 3 6 8 IMAGE 8 X I V CONTENTS 9.7.2 U N U S U A L SPECTRAL FEATURES A N D PUZZLING LINESHAPES 3 7 2 9.7.3 DYNAMIC LINESHAPE EFFECTS A N D PARTIALLY AVERAGED SIGNALS 376 9.8 C O M P U T E R SIMULATION O F POWDER SPECTRA 378 9.9 MOLECULAR INTERPRETATION O F PARAMETERS 3 8 0 9.9.1 G-TENSOR 3 8 0 9.9.2 HYPERFINE TENSOR 383 9.10 Q U A N T U M CHEMICAL CALCULATIONS O F MAGNETIC PARAMETERS 386 9.11 ADVANCED EPR TECHNIQUES 3 8 8 9.11.1 ELECTRON SPIN ECHO-BASED TECHNIQUES 388 9.12 CHARACTERISTICS O F EPR TECHNIQUES I N APPLICATION TO CATALYSIS A N D SURFACES 3 8 9 9.12.1 DISTINCTION BETWEEN SURFACE A N D BULK SPECIES 3 9 0 9.12.2 POORLY RESOLVED SPECTRA - MULTIFREQUENCY APPROACH 3 9 2 9.12.3 OVERLAPPING SIGNALS 394 9.12.4 STRAIN BROADENING A N D S M E A R I N G O F FEATURES WITH H I G H ANGULAR ANISOTROPY 3 9 5 9.12.5 U S E O F PROBE MOLECULES A N D SPIN LABELS 3 9 6 9.13 INTERFACIAL A N D SURFACE CHARGE-TRANSFER PROCESSES 398 9.14 IN SITU A N D OPERANDO EPR TECHNIQUES 399 9.15 CONCLUSIONS A N D PROSPECTS 403 REFERENCES 403 10 MOSSBAUER SPECTROSCOPY 4 0 7 LORENZO STIEVANO A N D FRIEDRICH E. WAGNER 10.1 INTRODUCTION 4 0 7 10.2 T H E M O S S B A U E R EFFECT 4 0 9 10.3 RADIATION SOURCE 411 10.4 M O S S B A U E R ABSORBERS 4 1 4 10.5 HYPERFINE INTERACTIONS 414 10.5.1 ELECTRIC MONOPOLE INTERACTION 415 10.5.2 MAGNETIC DIPOLE INTERACTION 4 1 7 10.5.3 ELECTRIC Q U A D R U P O L E INTERACTION 419 10.6 EXPERIMENTAL SETUPS 421 10.6.1 TRANSMISSION MOSSBAUER SPECTROSCOPY 421 10.6.2 SURFACE-SENSITIVE MOSSBAUER SPECTROSCOPY 422 10.6.3 EMISSION MOSSBAUER SPECTROSCOPY 423 10.7 EVALUATION O F EXPERIMENTAL DATA 4 2 4 10.7.1 SPECTRA FOLDING 424 10.7.2 SPECTRA FITTING 4 2 4 10.8 THEORETICAL CALCULATION O F M O S S B A U E R PARAMETERS 426 10.9 C O M M O N MOSSBAUER-ACTIVE TRANSITIONS 4 2 7 10.9.1 T H E 14.4KEV M O S S B A U E R TRANSITION O F 57FE 427 10.9.2 T H E 89.4 KEV M O S S B A U E R TRANSITION O F " R U 4 2 9 10.9.3 T H E 23.9 KEV M O S S B A U E R TRANSITION O F U 9 S N 4 3 0 IMAGE 9 10.9.4 10.9.5 10.9.6 10.10 10.10.1 10.10.1.1 10.10.1.2 10.10.1.3 10.10.1.4 10.10.2 10.10.2.1 10.10.2.2 10.10.2.3 10.10.3 10.11 N 11.1 11.2 11.2.1 1 1 . 2 . 2 11.3 11.3.1 11.3.2 11.4 11.4.1 11.4.2 11.4.3 11.5 1 1 . 6 1 1 . 6 . 1 1 1 . 6 . 2 11.6.3 11.6.4 11.6.4.1 CONTENTS X V T H E 37.1 KEV MOSSBAUER TRANSITION O F 121SB 4 3 2 T H E 73.0 KEV M O S S B A U E R TRANSITION O F 1 9 3 I R 4 3 2 T H E 77.3 KEV M O S S B A U E R TRANSITION O F 197AU 433 SURVEY O F APPLICATIONS O F T H E MOSSBAUER EFFECT I N T H E STUDY O F CATALYTIC MATERIALS 434 197AU M O S S B A U E R SPECTROSCOPY I N T H E STUDY O F GOLD CATALYSTS 4 3 5 ELECTRONIC PROPERTIES: A U / A 1 2 0 3 O X I D A T I O N CATALYSTS 4 3 5 DETERMINATION O F CHEMICAL COMPOSITION: SUPPORTED A U P D ALLOYS 436 DETERMINATION O F L A M B - M O S S B A U E R / F A C T O R S FOR QUANTITATIVE ANALYSES: AU/ACTIVATED C A R B O N CATALYSTS FOR T H E HYDROCHLORINATION O F ACETYLENE 4 3 7 IDENTIFICATION O F SURFACE SPECIES: GOLD NANOPARTICLES E M B E D D E D I N MYLAR 438 57FE MOSSBAUER SPECTROSCOPIC STUDY O F IRON-CONTAINING CATALYSTS 4 3 9 S U P E R P A R A M A G N E T I S M A N D T H E DETERMINATION O F PARTICLE SIZES: F E / C CATALYSTS FOR C O HYDROGENATION 4 4 0 IN SITU MEASUREMENTS: IRON-BASED FISCHER-TROPSCH CATALYSTS 443 EMISSION M O S S B A U E R SPECTROSCOPY: COBALT-BASED FISCHER-TROPSCH CATALYSTS 4 4 4 U 9 S N MOSSBAUER STUDY O F BIMETALLIC TIN-CONTAINING CATALYSTS 4 4 6 CONCLUSION 4 4 7 REFERENCES 448 LOW ENERGY ION SCATTERING A N D SECONDARY ION M A S S SPECTROMETRY 453 NORBERT KRUSE AND SERGEY CHENAKIN INTRODUCTION 453 SECONDARY I O N MASS SPECTROMETRY 4 5 7 BASIC PRINCIPLES 457 POTENTIAL O F SIMS 4 5 9 LOW-ENERGY ION SCATTERING (ION SCATTERING SPECTROSCOPY) 461 M A I N CONCEPTS 461 POTENTIALITIES O F LE1S 463 SINGLE-CRYSTAL A N D POLYCRYSTALLINE METAL SURFACES 4 6 5 SURFACE DEFECTS A N D ADSORPTION O F SIMPLE MOLECULES 4 6 5 ADSORPTION O F ORGANIC MOLECULES 469 OXIDATION A N D CORROSION 4 7 0 A M O R P H O U S METALLIC ALLOYS 4 7 2 FROM MODEL TO REAL CATALYSTS 4 7 4 STRUCTURAL EFFECTS 4 7 4 DISPERSION EFFECTS 4 7 7 PREPARATION A N D ACTIVATION EFFECTS 4 8 0 COMPOSITIONAL EFFECTS I N VARIOUS CATALYTIC REACTIONS 4 8 4 C O HYDROGENATION 4 8 4 IMAGE 10 CONTENTS 11.6.4.2 HYDROCARBON OXIDATION 486 11.6.4.3 HYDROGENATION A N D OXIDATIVE DEHYDROGENATION 489 11.6.5 P R O M O T I O N A N D POISONING EFFECTS 4 8 9 11.6.5.1 C O HYDROGENATION TO METHANOL 4 9 0 11.6.5.2 C O OXIDATION 4 9 0 11.6.5.3 HYDROCARBON PARTIAL A N D TOTAL OXIDATION 4 9 2 11.6.5.4 CRACKING 4 9 4 11.6.5.5 B E C K M A N N R E A R R A N G E M E N T 4 9 4 11.6.5.6 ALDOSE OXIDATION 4 9 5 11.6.5.7 NITRITE A N D NITRATE REDUCTION 4 9 5 11.6.5.8 CL-RELATED EFFECTS I N VARIOUS REACTIONS 4 9 6 11.6.6 ACTIVE SITES 4 9 7 11.7 CONCLUSION 501 REFERENCES 5 0 2 12 X-RAY ABSORPTION SPECTROSCOPY 511 CHRISTOPHE CEANTET A N D CHRISTOPHE PICHON 12.1 INTRODUCTION 511 12.2 HISTORY O F X-RAY ABSORPTION SPECTROSCOPY 511 12.3 PRINCIPLE O F X-RAY ABSORPTION SPECTROSCOPY; XANES, EXAFS 5 1 2 12.4 EXPERIMENTATION A N D DATA PROCESSING 5 1 5 12.5 APPLICATION T O OXIDE MATERIALS 521 12.6 APPLICATIONS TO T H E STUDY O F SULFIDE CATALYSTS 5 2 4 12.6.1 STRUCTURE O F T H E ACTIVE PHASE 524 12.6.2 ACTIVATION O F SULFIDE CATALYSTS 525 12.7 APPLICATION TO METAL CATALYSTS 527 12.7.1 STRUCTURE A N D SIZE O F (BI-)METALLIC PARTICLES 5 2 8 12.7.2 EVOLUTION O F T H E BIMETALLIC STRUCTURE U N D E R REACTION O R POISONING C O N D I T I O N S 5 3 0 12.8 CONCLUSION A N D PERSPECTIVES 533 REFERENCES 5 3 4 13 AUGER ELECTRON, X RAY A N D UV PHOTOELECTRON SPECTROSCOPIES 5 3 7 WOLFGANG CRUNERT 13.1 INTRODUCTION 537 13.1.1 T H E RELATION BETWEEN XPS, UPS, A N D AES 5 3 7 13.1.2 A G L I M P S E AT HISTORY 539 13.2 SOURCES O F ANALYTICAL INFORMATION 5 4 0 13.2.1 XPS BINDING ENERGIES 5 40 13.2.1.1 PARAMETERS AFFECTING XPS BINDING ENERGIES 5 4 0 13.2.1.2 THEORETICAL PREDICTION O F XPS BINDING ENERGIES 5 4 5 13.2.1.3 PRACTICAL ASPECTS 5 47 13.2.2 T H E ANALYTICAL POTENTIAL O F XPS LINESHAPES 548 13.2.2.1 S P I N - O R B I T SPLITTING 548 13.2.2.2 C H A R G E TRANSFER SATELLITES 5 4 9 IMAGE 11 CONTENTS X V I I 13.2.2.3 O T H E R SHAKE-UP TYPE SATELLITES 5 5 0 13.2.2.4 MULTIPLET SPLITTING 551 13.2.3 SURFACE SENSITIVITY; WORKING WITH XPS INTENSITIES 553 13.2.3.1 H O M O G E N E O U S A N D I N H O M O G E N E O U S S A M P L I N G REGION 5 5 3 13.2.3.2 INCREASING T H E SURFACE SENSITIVITY O F XPS 5 5 7 13.2.3.3 D E T E R M I N I N G XPS INTENSITIES - LINESHAPES A N D SIGNAL BACKGROUNDS 5 6 0 13.2.4 XAES A N D XPS - STRUCTURAL SENSITIVITY VIA T H E AUGER P A R A M E T E R 5 6 2 13.2.5 ULTRAVIOLET PHOTOELECTRON SPECTROSCOPY 5 6 5 13.2.6 XPS A N D O T H E R METHODS 566 13.3 I N S T R U M E N T A T I O N 5 6 7 13.3.1 CONVENTIONAL XPS 5 6 7 13.3.2 LATERAL RESOLUTION, I M A G I N G 5 6 9 13.3.3 AMBIENT-PRESSURE PHOTOELECTRON SPECTROSCOPY (APPES) 5 7 0 13.4 CASE STUDIES 571 13.4.1 COMBINATION O F METHODS: STRONG METAL-SUPPORT INTERACTION I N A A G / T I 0 2 CATALYST 571 13.4.2 DEPTH RESOLUTION: T H E SURFACE C O M P O S I T I O N O F STOICHIOMETRIC BULK MIXED VANADATES A N D MOLYBDATES 573 13.4.3 APPES: O N T H E DOORSTEP O F A N E W AGE O F XPS 5 7 4 13.5 OUTLOOK 5 7 8 REFERENCES 5 7 9 14 SINGLE MOLECULE SPECTROSCOPY 585 TIMO LEBOLD, JENS MICHAELIS, THOMAS BEIN, A N D CHRISTOPH BRDUCHLE 14.1 INTRODUCTION 585 14.2 DESCRIPTION O F T H E METHOD 5 8 6 14.3 EXPERIMENTAL CONSIDERATIONS A N D CONSTRAINTS 591 14.4 MESOPOROUS SILICA MATERIALS 5 9 2 14.5 SELECTED STUDIES 5 9 3 14.5.1 CORRELATING DYNAMIC A N D STRUCTURAL INFORMATION BY C O M B I N I N G SINGLE-MOLECULE MICROSCOPY A N D HIGH-RESOLUTION T R A N S M I S S I O N ELECTRON MICROSCOPY 5 9 3 14.5.2 ANALYZING T H E DIFFUSION DYNAMICS W I T H I N A SILICA MESOPORE WITH ONE-CHANNEL ACCURACY U S I N G SINGLE-MOLECULE MICROSCOPY A N D SINGLE-PARTICLE TRACKING 5 9 5 14.5.3 ANALYZING ORIENTATIONAL A N D SPECTRAL DYNAMICS AT ADSORPTION SITES INSIDE A CTAB TEMPLATED T H I N MESOPOROUS SILICA FILM 5 9 8 14.5.4 VISUALIZATION O F T H E M E C H A N I S M S GOVERNING T H E STRUCTURE FORMATION O F MESOPOROUS SILICA N A N O C H A N N E L S 601 14.6 CONCLUSION 605 REFERENCES 605 IMAGE 12 X V I I I J CONTENTS VOLUME 2 PART TWO MACROSCOPIC TECHNIQUES 609 15 X-RAY DIFFRACTION A N D SMALL ANGLE X-RAY SCATTERING 611 MATTE BEHRENS A N D ROBERT SCHLDGL 16 TRANSMISSION ELECTRON MICROSCOPY 6 5 5 JOHN MEURIG THOMAS A N D CATERINA DUCATI 17 SCANNING PROBE MICROSCOPY A N D SPECTROSCOPY 703 TOMOAKI NISHINO 18 THERMAL METHODS 7 4 7 ADRIEN MEKKI-BERRADA A N D ALINE AUROUX 19 SURFACE AREA/POROSITY, ADSORPTION, DIFFUSION 853 PHILIP L. LLEWELLYN, EMILY BLOCH, A N D SANDRINE BOURRELLY PART THREE CHARACTERIZATION O F T H E FLUID P H A S E (CAS A N D / O R LIQUID) 881 2 0 M A S S SPECTROMETRY 883 SANDRA ALVES AND JEAN-CLAUDE TABET 21 CHROMATOGRAPHIC METHODS 953 FABRICE BERTONCINI, DIDIER THIEBAUT, MARION COURTIADE, A N D THOMAS DUTRIEZ 22 TRANSIENT TECHNIQUES: TEMPORAL ANALYSIS O F PRODUCTS A N D STEADY STATE ISOTOPIC TRANSIENT KINETIC ANALYSIS 1013 ANGELOS M. EFSTATHIOU, JOHN T. CLEAVES, AND GREGORY S. YABLONSKY PART FOUR ADVANCED CHARACTERIZATION 1075 23 TECHNIQUES COUPLING FOR CATALYST CHARACTERISATION 1077 ANDREW M. BEALE, MATTHEW C. O'BRIEN, A N D BERT M. WECKHUYSEN 2 4 Q U A N T U M CHEMISTRY METHODS 1119 PHILIPPE SAUTET CONCLUSIONS 1147 MICHEL CHE AND JACQUES C. VDDRINE INDEX 1153
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classification_rvk	UH 6300 UH 6320 UM 3200 VE 7040 VE 9350 VG 8900
classification_tum	WER 020f CHE 194f WER 700f CHE 167f CHE 236f
ctrlnum	(DE-599)DNB1011200287
discipline	Chemie / Pharmazie Physik Werkstoffwissenschaften Chemie
format	Book
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id	DE-604.BV039727640
illustrated	Not Illustrated
indexdate	2024-07-21T00:16:56Z
institution	BVB
isbn	3527326871 9783527326877 9783527645329
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-024575606
open_access_boolean
publishDateSort	0000
publisher	Wiley-VCH
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spelling	Characterization of solid materials and heterogeneous catalysts from structure to surface reactivity Weinheim Wiley-VCH txt rdacontent n rdamedia nc rdacarrier Werkstoffkunde (DE-588)4079184-1 gnd rswk-swf Katalysator (DE-588)4029919-3 gnd rswk-swf Spektroskopie (DE-588)4056138-0 gnd rswk-swf Strukturaufklärung (DE-588)4183788-5 gnd rswk-swf Katalysator (DE-588)4029919-3 s Strukturaufklärung (DE-588)4183788-5 s Spektroskopie (DE-588)4056138-0 s DE-604 Werkstoffkunde (DE-588)4079184-1 s Che, Michel Sonstige oth Erscheint auch als Online-Ausgabe, EPUB 978-3-527-64533-6 Erscheint auch als Online-Ausgabe, MOBI 978-3-527-64535-0 Erscheint auch als Online-Ausgabe, PDF 978-3-527-64534-3 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3718066&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=024575606&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Characterization of solid materials and heterogeneous catalysts from structure to surface reactivity Werkstoffkunde (DE-588)4079184-1 gnd Katalysator (DE-588)4029919-3 gnd Spektroskopie (DE-588)4056138-0 gnd Strukturaufklärung (DE-588)4183788-5 gnd
subject_GND	(DE-588)4079184-1 (DE-588)4029919-3 (DE-588)4056138-0 (DE-588)4183788-5
title	Characterization of solid materials and heterogeneous catalysts from structure to surface reactivity
title_auth	Characterization of solid materials and heterogeneous catalysts from structure to surface reactivity
title_exact_search	Characterization of solid materials and heterogeneous catalysts from structure to surface reactivity
title_full	Characterization of solid materials and heterogeneous catalysts from structure to surface reactivity
title_fullStr	Characterization of solid materials and heterogeneous catalysts from structure to surface reactivity
title_full_unstemmed	Characterization of solid materials and heterogeneous catalysts from structure to surface reactivity
title_short	Characterization of solid materials and heterogeneous catalysts
title_sort	characterization of solid materials and heterogeneous catalysts from structure to surface reactivity
title_sub	from structure to surface reactivity
topic	Werkstoffkunde (DE-588)4079184-1 gnd Katalysator (DE-588)4029919-3 gnd Spektroskopie (DE-588)4056138-0 gnd Strukturaufklärung (DE-588)4183788-5 gnd
topic_facet	Werkstoffkunde Katalysator Spektroskopie Strukturaufklärung
url	http://deposit.dnb.de/cgi-bin/dokserv?id=3718066&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=024575606&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT chemichel characterizationofsolidmaterialsandheterogeneouscatalystsfromstructuretosurfacereactivity

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