Verfügbarkeit: Mössbauer spectroscopy

Mössbauer spectroscopy: applications in chemistry and materials science

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Bibliographische Detailangaben
Weitere Verfasser:	Garcia, Yann (HerausgeberIn), Wang, Junhu (HerausgeberIn), Zhang, Tao (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH [2024]
Schlagworte:	Mößbauer-Spektroskopie Analyse u. Charakterisierung von Nanosystemen Analysis/Characterization of Nanosystems CH15: Spektroskopie Chemie Chemistry MSA0: Werkstoffprüfung Materials Characterization Materials Science Materialwissenschaften NT80: Analyse u. Charakterisierung von Nanosystemen Nanotechnologie Nanotechnology Spectroscopy Spektroskopie Werkstoffprüfung Aufsatzsammlung
Online-Zugang:	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34691-2/ Inhaltsverzeichnis
Beschreibung:	xiii, 316 Seiten Illustrationen 24.4 cm x 17 cm
ISBN:	9783527346912

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245	1	0	\|a Mössbauer spectroscopy \|b applications in chemistry and materials science \|c edited by Yann Garcia, Junhu Wang, and Tao Zhang
264		1	\|a Weinheim \|b Wiley-VCH \|c [2024]
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653			\|a Analyse u. Charakterisierung von Nanosystemen
653			\|a Analysis/Characterization of Nanosystems
653			\|a CH15: Spektroskopie
653			\|a Chemie
653			\|a Chemistry
653			\|a MSA0: Werkstoffprüfung
653			\|a Materials Characterization
653			\|a Materials Science
653			\|a Materialwissenschaften
653			\|a NT80: Analyse u. Charakterisierung von Nanosystemen
653			\|a Nanotechnologie
653			\|a Nanotechnology
653			\|a Spectroscopy
653			\|a Spektroskopie
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700	1		\|a Garcia, Yann \|0 (DE-588)1260237060 \|4 edt
700	1		\|a Wang, Junhu \|0 (DE-588)1315449897 \|4 edt
700	1		\|a Zhang, Tao \|4 edt
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776	0	8	\|i Erscheint auch als \|n Online-Ausgabe, EPUB \|z 978-3-527-82493-9
776	0	8	\|i Erscheint auch als \|n Online-Ausgabe, oBook \|z 978-3-527-82495-3
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943	1		\|a oai:aleph.bib-bvb.de:BVB01-034310300

Datensatz im Suchindex

_version_	1805088226201829376
adam_text	CONTENTS PREFACE XI 1 APPLICATION OF MDSSBAUER SPECTROSCOPY TO ENERGY MATERIALS 1 PIERRE-EMMANUEL LIPPENS, JEAN-CLAUDE JUMAS, AND JOSETTE OLIVIER-FOURCADE 1.1 INTRODUCTION 1 1.2 MDSSBAUER SPECTROSCOPY FOR LI-ION AND NA-ION BATTERIES 2 1.2.1 CHARACTERIZATION OF ELECTRODE MATERIALS AND ELECTROCHEMICAL REACTIONS 2 1.2.2 TIN-BASED NEGATIVE ELECTRODE MATERIALS FOR LI-ION BATTERIES 3 1.2.2.1 ELECTROCHEMICAL REACTIONS OF LITHIUM WITH TIN 3 1.2.2.2 TIN OXIDES 7 1.2.2.3 TIN BOROPHOSPHATES 10 1.2.2.4 TIN-BASED INTERMETALLICS 13 1.2.3 IRON-BASED ELECTRODE MATERIALS 17 1.2.3.1 LIFEPO 4 AS POSITIVE ELECTRODE MATERIAL FOR LI-ION BATTERIES 17 1.2.3.2 FE, 19PO4(OH) 57(H2O).43/C AS POSITIVE ELECTRODE MATERIAL FOR LI-ION BATTERIES IS 1.2.3.3 NA, 5 FE 0 5TI, S(PO,)3/C AS ELECTRODE MATERIAL FOR NA-ION BATTERIES 19 1.3 MOSSBAUER SPECTROSCOPY OF TIN-BASED CATALYSTS 21 1.3.1 REFORMING CATALYSIS 21 1.3.2 REDOX PROPERTIES OF PT-SN BASED CATALYSTS 22 1.3.3 TRIMETALLIC PT-SN-IN BASED CATALYSTS 24 1.4 CONCLUSION 26 ACKNOWLEDGMENTS 27 REFERENCES 27 2 MDSSBAUER SPECTRAL STUDIES OF IRON PHOSPHATE CONTAINING MINERALS AND COMPOUNDS 33 GARY J. LONG AND FERNANDE GRANDJEAN 2.1 INTRODUCTION 33 2.2 THERMODYNAMIC PROPERTIES OF IRON PHOSPHATE CONTAINING COMPOUNDS 34 VI CONTENTS 2.3 ROOM TEMPERATURE MOSSBAUER SPECTRA OF IRON PHOSPHATE CONTAINING MINERALS 37 2.4 2.5 ANALYSIS OF MAGNETICALLY ORDERED MDSSBAUER SPECTRA 50 STRUCTURAL AND THERMODYNAMIC PROPERTIES OF THE POLYMORPHS OF FEPO 4 53 2.5.1 2.6 2.7 POLYMORPHS OF FEPO 4 53 MDSSBAUER SPECTRA OF A-FEPO4 55 MAGNETIC STRUCTURE OF A-FEPO4, OBTAINED BY MDSSBAUER SPECTROSCOPY 57 2.7.1 2.8 2.9 2.9.1 2.9.2 MAGNETIC STRUCTURE OF A-FEPO4 57 TEMPERATURE DEPENDENCE OF THE A-FEPO4 STRUCTURE TILT ANGLE 60 MDSSBAUER SPECTRAL STUDIES ON METASTABLE POLYMORPHS OF FEPO 4 62 CRYSTALLOGRAPHIC STRUCTURES OF TWO POLYMORPHS OF FEPO42H,O 62 PREPARATION AND CRYSTALLOGRAPHIC STRUCTURES OF THE TWO POLYMORPHS, Y-FEPO, AND Z-FEPO, 62 2.9.3 2.9.4 MDSSBAUER SPECTRAL STUDIES OF FEPO 4 METASTABLE POLYMORPHS 64 PREPARATION AND MDSSBAUER SPECTRA OF SYNTHETIC HETEROSITE, (FE,MN)PO 4 67 2.9.5 2.10 2.10.1 2.10.2 2.10.3 2.10.4 FITS OF THE MAGNETIC MDSSBAUER SPECTRA OF N-FE . MN, 1PO4 68 MDSSBAUER SPECTRAL STUDIES OF VARIOUS IRON PHOSPHATE COMPOUNDS 73 MDSSBAUER SPECTRAL PROPERTIES OF A-FE,(PO,)O 74 MDSSBAUER SPECTRAL PROPERTIES OF FE 3 (PO 4 )O 3 79 PREPARATION AND STRUCTURAL PROPERTIES OF FE 9 (PO 4 )O 8 80 MDSSBAUER SPECTRAL PROPERTIES OF FE 9 (PO 4 )O 8 81 ACKNOWLEDGMENTS 85 REFERENCES AND NOTES 85 3 MDSSBAUER SPECTROSCOPIC INVESTIGATION OF FE-BASED SILICIDES 93 XIAO CHEN, JUNHU WANG, AND CHANGHAI LIANG 3.1 3.2 INTRODUCTION 93 MDSSBAUER SPECTROSCOPIC INVESTIGATION OF IRON SILICIDES PREPARED BY MECHANICAL ALLOYING AND HEAT TREATMENT 95 3.3 MDSSBAUER SPECTRA OF IRON SILICIDE ON SILICA PREPARED BY PYROLYSIS OF FERROCENE-POLYDIMETHYLSILANE COMPOSITES 99 3.4 SYNTHESIS AND MDSSBAUER SPECTRA OF IRON SILICIDES BY TEMPERATURE-PROGRAMMED SILICIFICATION 102 3.5 3.6 MDSSBAUER SPECTROSCOPIC INVESTIGATION OF DOPED IRON SILICIDES 104 CONCLUSION AND PERSPECTIVE 107 REFERENCES 108 4 MDSSBAUER SPECTROSCOPY OF CATALYSTS 113 KAROLY LAZAR 4.1 4.2 INTRODUCTION 113 PRINCIPLES OF THE MDSSBAUER EFFECT AND OUTLOOK OF ITS APPLICATION FOR CATALYST STUDIES 116 CONTENTS VII 4.2.1 4.2.2 BRIEF OVERVIEW OF THE BASICS OF MDSSBAUER SPECTROSCOPY 116 MDSSBAUER SPECTROSCOPY FROM THE POINT OF VIEW OF CATALYST STUDIES - PARTICULAR FEATURES 117 4.2.3 4.2.4 4.2.4.1 4.2.4.2 4.2.4.3 4.2.5 4.3 4.3.1 THE PROBABILITY OF THE MDSSBAUER EFFECT - F-FACTOR AND SIZE EFFECTS 118 VARIANTS OF THE TECHNIQUE 120 57 CO EMISSION SPECTROSCOPY 120 SYNCHROTRON-BASED NFS (NUCLEAR FORWARD SCATTERING) 122 CONVERSION ELECTRON MDSSBAUER SPECTROSCOPY 122 TECHNICAL IMPLEMENTATIONS - EXPERIMENTAL CONDITIONS 123 HETEROGENEOUS CATALYSTS 124 SITES ON SUPPORTED PARTICLES WITH DIFFERENT PARTICIPATION IN CATALYTIC PROCESSES 124 4.3.2 4.3.3 4.3.3.1 4.3.3.2 4.3.3.3 4.4 4.5 4.5.1 COLLECTIVE EFFECTS IN PARTICLES (MAGNETISM) 125 CASE STUDIES 126 METALS AND ALLOYS 126 OXIDE CATALYSTS 130 CATALYSTS WITH FE-N, FE-C, AND FE-N-C CENTERS 133 BIOCATALYSTS - ENZYMES 135 HOMOGENEOUS CATALYSTS - FROZEN SOLUTIONS 135 STUDIES ON REACTION INTERMEDIATES - TIME-RESOLVED FREEZE-QUENCHED SPECTRA 136 4.6 CONCLUSIONS 137 ACKNOWLEDGMENT 137 REFERENCES 138 5 APPLICATION OF MDSSBAUER SPECTROSCOPY IN STUDYING CATALYSTS FOR CO OXIDATION AND PREFERENTIAL OXIDATION OF CO IN H2 145 KUO LIU, JUNHU WANG, AND TOO ZHANG 5.1 5.2 5.2.1 5.2.2 5.2.3 5.2.4 5.3 5.3.1 5.3.2 5.3.3 5.3.3.1 5.3.3.2 5.3.4 5.4 INTRODUCTION 145 APPLICATION OF MDSSBAUER SPECTROSCOPY IN CO OXIDATION 147 57 FE MDSSBAUER SPECTROSCOPY 147 119 SN MDSSBAUER SPECTROSCOPY 150 197 AU MDSSBAUER SPECTROSCOPY 151 193 IR MDSSBAUER SPECTROSCOPY 152 APPLICATION OF MDSSBAUER SPECTROSCOPY IN PROX 153 PTFE CONTAINING CATALYSTS 153 AU-BASED CATALYSTS 155 IRFE-CONTAINING CATALYSTS 158 POROUS CARBON SUPPORTED IRFE CATALYSTS 158 SIO 2 AND AL,O, SUPPORTED IRFE CATALYSTS 159 CUO/CEO 2 WITH FE 2 O 3 ADDITIVE 165 CONCLUDING REMARKS 165 ACKNOWLEDGMENTS 166 REFERENCES 166 VIII CONTENTS 6 APPLICATION OF 57 FE MOSSBAUER SPECTROSCOPY IN STUDYING FE-N-C CATALYSTS FOR OXYGEN REDUCTION REACTION IN PROTON EXCHANGE MEMBRANE FUEL CELLS 171 XINLONG XU, JUNHU WANG, SULI WANG, AND GONGQUAN SUN 6.1 6.2 6.2.1 6.2.2 INTRODUCTION 171 ADVANCED 57 FE MDSSBAUER SPECTROSCOPY TECHNIQUE 173 ROOM TEMPERATURE 57 FE MDSSBAUER SPECTROSCOPY 173 LOW TEMPERATURE AND COMPUTATIONAL 57 FE MDSSBAUER SPECTROSCOPY 174 6.2.3 6.3 6.3.1 6.3.2 6.3.3 6.3.3.1 6.3.3.2 6.4 IN SITU ELECTROCHEMICAL 57 FE MDSSBAUER SPECTROSCOPY 175 CHARACTERIZATION OF FE-N-C USING 57 FE MDSSBAUER SPECTROSCOPY 177 IDENTIFICATION OF ACTIVE SITES 177 INVESTIGATION OF DEGRADATION MECHANISM 180 OPTIMIZATION FOR SYNTHESIS OF FE-N-C 184 PRECURSOR COMPOSITION 184 HEAT TREATMENT 185 SUMMARY AND PERSPECTIVE 187 ACKNOWLEDGMENTS 188 REFERENCES 188 7 197 AU MDSSBAUER SPECTROSCOPY OF THIOLATE-PROTECTED GOLD CLUSTERS 195 NORIMICHI KOJIMA, YASUHIRO KOBAQYASHI, AND MAKOTO SETO 7.1 7.2 7.3 7.3.1 7.3.2 7.3.3 7.3.4 7.3.5 INTRODUCTION 195 SYNTHESIS OF THIOLATE PROTECTED GOLD CLUSTERS 197 197 AU MDSSBAUER SPECTROSCOPY OF GOLD NANO-CLUSTERS 198 EXPERIMENTAL PROCEDURE OF 197 AU MDSSBAUER SPECTROSCOPY 198 197 AU MDSSBAUER SPECTRA OF AU N (SG) M (N = 10^55) 198 MOLECULAR STRUCTURE AND 197 AU MDSSBAUER SPECTRA OF AU 10 (SG) 10 198 MOLECULAR STRUCTURE AND 197 AU MDSSBAUER SPECTRA OF AU 25 (SG) 18 200 STRUCTURAL EVOLUTION OF AUYY(SG)M (N = 10^55) BASED ON 197 AU MDSSBAUER SPECTROSCOPY 201 7.3.6 7.3.7 7.4 197 AU MDSSBAUER SPECTRA OF AU 2 4PD 1 (SC 12 H25) 18 204 197 AU MDSSBAUER SPECTRA OF AUYY(SC12H25)M 205 CONCLUSION 208 ACKNOWLEDGMENTS 208 REFERENCES 209 8 197 AU MDSSBAUER SPECTROSCOPY OF GOLD MIXED-VALENCE COMPLEXES, CS2[AU ' X2][AU"Y,](X, Y = CL, BR, 1) AND [NH; (CH,)YYNH]2[(AU ' 12)(AU"4) (13)21 (N = 7, 8) 213 NORIMICHI KOJIMA, YASUHIRO KOBAQYASHI, AND MAKOTO SETO 8.1 8.2 8.2.1 INTRODUCTION 213 EXPERIMENTAL PROCEDURE 216 SYNTHESIS AND CHARACTERIZATION 216 CONTENTS IX 8.2.1.1 8.2.1.2 8.2.2 8.3 8.4 8.5 8.5.1 CS[AU ' X,][AU"Y4] (X, Y = C1, BR, I) 216 [NH,(CH,),NHA]2[(AU ' T,)(AUYY1)(1,)21 (N = 7, 8) 217 197 AU MDSSBAUER SPECTROSCOPY 217 CRYSTAL STRUCTURE OF CS[AU ' X2][AUYYY4] (X, Y = C1, BR, I) 218 CHEMICAL BOND OF AU-X IN [AU I X 2 ] " AND [AU"X,] 221 MDSSBAUER PARAMETERS OF 197 AU IN [AUTX] AND [AUYYX4] 223 MDSSBAUER PARAMETERS OF 197 AU IN (C 4 H 9 ) 4 N[AU I X 2 ] AND (C,H,),N[AU"X,] 224 8.5.1.1 8.5.1.2 8.5.2 ISOMER SHIFT 224 QUADRUPOLE SPLITTING 224 MDSSBAUER PARAMETERS OF 197 AU IN CS [AUX ][AU"X4] (X = CL,BR,I) 225 8.5.2.1 8.5.2.2 8.5.23 8.6 8.7 8.7.1 8.7.2 8.73 8.7.4 8.8 8.8.1 ISOMER SHIFT 225 QUADRUPOLE SPLITTING 226 ANALYSIS OF 197 AU MDSSBAUER PARAMETERS FOR CS,[AU ' X2][AU"X4] 226 CHARGE TRANSFER INTERACTION IN CS[AU ' X,][AU"X,] (X = C1, BR, I) 227 197 AU MDSSBAUER SPECTRA OF CS[AU ' X2][AU"LY4] (X, Y = C1, BR, I) 228 ISOMER SHIFT OF AU 1 IN CS 2 [ AU ' X, ] [AU"Y4] 228 ISOMER SHIFT OF AUYY IN CS[AU ' X2][AU"LY4] 230 QUADRUPOLE SPLITTING OF AU 1 IN CS[AU ' X2I[AU"Y4] 230 QUADRUPOLE SPLITTING OF AUYY IN CS[AUYYX ][AUYYY4] 231 SINGLE CRYSTAL 197 AU MDSSBAUER SPECTRA OF CS[AU ' 1,][AUYY1] 231 COMPARISON OF 197 AU MDSSBAUER SPECTRA BETWEEN SINGLE CRYSTAL AND POWDER CRYSTAL 231 8.8.2 8.9 SIGN OF EFG FOR AU 1 IN [AU 1 ^] - AND AUYY IN [AUMX,] 234 197 AU MDSSBAUER SPECTRA OF CS[AU ' X,][AU"X,] (X = C1,1) UNDER HIGH PRESSURES 235 8.9.1 8.9.2 8.93 8.10 PHASE DIAGRAM OF CS[AU ' X2][AU"X,] (X = C1, BR, I) 235 ORIGIN OF METALLIC MIXED-VALENCE STATE IN CS[AU ' C12][AU"CI] 236 AU VALENCE TRANSITION IN CS 2 [AU I I 2 ][AU III I 4 ] 239 197 AU MDSSBAUER SPECTRA OF [NH 3 (CH 2 ) N NH 3 ] 2 [(AUYY1,)(AUL1,)(1,)2] (N = 7,8) 241 8.11 CONCLUSION 243 ACKNOWLEDGMENTS 244 REFERENCES 245 9 TEMPERATURE AND PHOTO-INDUCED SPIN-CROSSOVER IN MOLECULE-BASED MAGNETS 251 HIROKO TOKORO, KENTA IMOTO, AND SHIN-ICHI OHKOSHI 9.1 9.2 INTRODUCTION 251 SPIN-CROSSOVER PHENOMENA IN CESIUM IRON HEXACYANIDOCHROMATE PRUSSIAN BLUE ANALOG 252 93 LIGHT-INDUCED SPIN-CROSSOVER MAGNET IN IRON OCTACYANIDONIOBATE BIMETAL ASSEMBLY 254 X I CONTENTS 9.4 CHIRAL PHOTOMAGNETISM AND LIGHT-CONTROLLABLE SECOND HARMONIC LIGHT IN IRON OCTACYANIDONIOBATE BIMETAL ASSEMBLY 258 9.5 CONCLUSION AND PERSPECTIVE 265 REFERENCES 265 10 DEVELOPING A METHODOLOGY TO OBTAIN NEW PHOTOSWITCHABLE FE(LL) SPIN CROSSOVER COMPLEXES 271 VARUN KUMAR AND YANN GARCIA 10.1 INTRODUCTION AND CONTEXT 271 10.2 INTRODUCTION TO A NEW PHOTO-RESPONSIVE ANION: PSCA 275 10.3 COMBINING FE(II) AND PSCA TOGETHER IN A SINGLE COMPOUND 276 10.4 FE(II) MONONUCLEAR COMPLEXES WITH DMPP AND PSCA LIGANDS 278 10.5 1D FE(II) COORDINATION POLYMER WITH PSCA AS NON-COORDINATED ANIONS 281 10.6 CONCLUSIONS AND PERSPECTIVES 284 REFERENCES 285 11 57 FE MDSSBAUER SPECTROSCOPY AS A PRIME TOOL TO EXPLORE A NEW FAMILY OF COLORIMETRIC SENSORS 291 LI SUN, WEIYANG LI, AND YANN GARCIA 11.1 INTRODUCTION AND GENERAL CONTEXT 291 11.2 COLORIMETRIC GAS SENSORS BASED ON FE(II) COMPLEXES 292 11.3 CONCLUSIONS AND PERSPECTIVES 306 REFERENCES 306 INDEX 311
adam_txt	CONTENTS PREFACE XI 1 APPLICATION OF MDSSBAUER SPECTROSCOPY TO ENERGY MATERIALS 1 PIERRE-EMMANUEL LIPPENS, JEAN-CLAUDE JUMAS, AND JOSETTE OLIVIER-FOURCADE 1.1 INTRODUCTION 1 1.2 MDSSBAUER SPECTROSCOPY FOR LI-ION AND NA-ION BATTERIES 2 1.2.1 CHARACTERIZATION OF ELECTRODE MATERIALS AND ELECTROCHEMICAL REACTIONS 2 1.2.2 TIN-BASED NEGATIVE ELECTRODE MATERIALS FOR LI-ION BATTERIES 3 1.2.2.1 ELECTROCHEMICAL REACTIONS OF LITHIUM WITH TIN 3 1.2.2.2 TIN OXIDES 7 1.2.2.3 TIN BOROPHOSPHATES 10 1.2.2.4 TIN-BASED INTERMETALLICS 13 1.2.3 IRON-BASED ELECTRODE MATERIALS 17 1.2.3.1 LIFEPO 4 AS POSITIVE ELECTRODE MATERIAL FOR LI-ION BATTERIES 17 1.2.3.2 FE, 19PO4(OH) 57(H2O).43/C AS POSITIVE ELECTRODE MATERIAL FOR LI-ION BATTERIES IS 1.2.3.3 NA, 5 FE 0 5TI, S(PO,)3/C AS ELECTRODE MATERIAL FOR NA-ION BATTERIES 19 1.3 MOSSBAUER SPECTROSCOPY OF TIN-BASED CATALYSTS 21 1.3.1 REFORMING CATALYSIS 21 1.3.2 REDOX PROPERTIES OF PT-SN BASED CATALYSTS 22 1.3.3 TRIMETALLIC PT-SN-IN BASED CATALYSTS 24 1.4 CONCLUSION 26 ACKNOWLEDGMENTS 27 REFERENCES 27 2 MDSSBAUER SPECTRAL STUDIES OF IRON PHOSPHATE CONTAINING MINERALS AND COMPOUNDS 33 GARY J. LONG AND FERNANDE GRANDJEAN 2.1 INTRODUCTION 33 2.2 THERMODYNAMIC PROPERTIES OF IRON PHOSPHATE CONTAINING COMPOUNDS 34 VI CONTENTS 2.3 ROOM TEMPERATURE MOSSBAUER SPECTRA OF IRON PHOSPHATE CONTAINING MINERALS 37 2.4 2.5 ANALYSIS OF MAGNETICALLY ORDERED MDSSBAUER SPECTRA 50 STRUCTURAL AND THERMODYNAMIC PROPERTIES OF THE POLYMORPHS OF FEPO 4 53 2.5.1 2.6 2.7 POLYMORPHS OF FEPO 4 53 MDSSBAUER SPECTRA OF A-FEPO4 55 MAGNETIC STRUCTURE OF A-FEPO4, OBTAINED BY MDSSBAUER SPECTROSCOPY 57 2.7.1 2.8 2.9 2.9.1 2.9.2 MAGNETIC STRUCTURE OF A-FEPO4 57 TEMPERATURE DEPENDENCE OF THE A-FEPO4 STRUCTURE TILT ANGLE 60 MDSSBAUER SPECTRAL STUDIES ON METASTABLE POLYMORPHS OF FEPO 4 62 CRYSTALLOGRAPHIC STRUCTURES OF TWO POLYMORPHS OF FEPO42H,O 62 PREPARATION AND CRYSTALLOGRAPHIC STRUCTURES OF THE TWO POLYMORPHS, Y-FEPO, AND Z-FEPO, 62 2.9.3 2.9.4 MDSSBAUER SPECTRAL STUDIES OF FEPO 4 METASTABLE POLYMORPHS 64 PREPARATION AND MDSSBAUER SPECTRA OF SYNTHETIC HETEROSITE, (FE,MN)PO 4 67 2.9.5 2.10 2.10.1 2.10.2 2.10.3 2.10.4 FITS OF THE MAGNETIC MDSSBAUER SPECTRA OF N-FE . MN, 1PO4 68 MDSSBAUER SPECTRAL STUDIES OF VARIOUS IRON PHOSPHATE COMPOUNDS 73 MDSSBAUER SPECTRAL PROPERTIES OF A-FE,(PO,)O 74 MDSSBAUER SPECTRAL PROPERTIES OF FE 3 (PO 4 )O 3 79 PREPARATION AND STRUCTURAL PROPERTIES OF FE 9 (PO 4 )O 8 80 MDSSBAUER SPECTRAL PROPERTIES OF FE 9 (PO 4 )O 8 81 ACKNOWLEDGMENTS 85 REFERENCES AND NOTES 85 3 MDSSBAUER SPECTROSCOPIC INVESTIGATION OF FE-BASED SILICIDES 93 XIAO CHEN, JUNHU WANG, AND CHANGHAI LIANG 3.1 3.2 INTRODUCTION 93 MDSSBAUER SPECTROSCOPIC INVESTIGATION OF IRON SILICIDES PREPARED BY MECHANICAL ALLOYING AND HEAT TREATMENT 95 3.3 MDSSBAUER SPECTRA OF IRON SILICIDE ON SILICA PREPARED BY PYROLYSIS OF FERROCENE-POLYDIMETHYLSILANE COMPOSITES 99 3.4 SYNTHESIS AND MDSSBAUER SPECTRA OF IRON SILICIDES BY TEMPERATURE-PROGRAMMED SILICIFICATION 102 3.5 3.6 MDSSBAUER SPECTROSCOPIC INVESTIGATION OF DOPED IRON SILICIDES 104 CONCLUSION AND PERSPECTIVE 107 REFERENCES 108 4 MDSSBAUER SPECTROSCOPY OF CATALYSTS 113 KAROLY LAZAR 4.1 4.2 INTRODUCTION 113 PRINCIPLES OF THE MDSSBAUER EFFECT AND OUTLOOK OF ITS APPLICATION FOR CATALYST STUDIES 116 CONTENTS VII 4.2.1 4.2.2 BRIEF OVERVIEW OF THE BASICS OF MDSSBAUER SPECTROSCOPY 116 MDSSBAUER SPECTROSCOPY FROM THE POINT OF VIEW OF CATALYST STUDIES - PARTICULAR FEATURES 117 4.2.3 4.2.4 4.2.4.1 4.2.4.2 4.2.4.3 4.2.5 4.3 4.3.1 THE PROBABILITY OF THE MDSSBAUER EFFECT - F-FACTOR AND SIZE EFFECTS 118 VARIANTS OF THE TECHNIQUE 120 57 CO EMISSION SPECTROSCOPY 120 SYNCHROTRON-BASED NFS (NUCLEAR FORWARD SCATTERING) 122 CONVERSION ELECTRON MDSSBAUER SPECTROSCOPY 122 TECHNICAL IMPLEMENTATIONS - EXPERIMENTAL CONDITIONS 123 HETEROGENEOUS CATALYSTS 124 SITES ON SUPPORTED PARTICLES WITH DIFFERENT PARTICIPATION IN CATALYTIC PROCESSES 124 4.3.2 4.3.3 4.3.3.1 4.3.3.2 4.3.3.3 4.4 4.5 4.5.1 COLLECTIVE EFFECTS IN PARTICLES (MAGNETISM) 125 CASE STUDIES 126 METALS AND ALLOYS 126 OXIDE CATALYSTS 130 CATALYSTS WITH FE-N, FE-C, AND FE-N-C CENTERS 133 BIOCATALYSTS - ENZYMES 135 HOMOGENEOUS CATALYSTS - FROZEN SOLUTIONS 135 STUDIES ON REACTION INTERMEDIATES - TIME-RESOLVED FREEZE-QUENCHED SPECTRA 136 4.6 CONCLUSIONS 137 ACKNOWLEDGMENT 137 REFERENCES 138 5 APPLICATION OF MDSSBAUER SPECTROSCOPY IN STUDYING CATALYSTS FOR CO OXIDATION AND PREFERENTIAL OXIDATION OF CO IN H2 145 KUO LIU, JUNHU WANG, AND TOO ZHANG 5.1 5.2 5.2.1 5.2.2 5.2.3 5.2.4 5.3 5.3.1 5.3.2 5.3.3 5.3.3.1 5.3.3.2 5.3.4 5.4 INTRODUCTION 145 APPLICATION OF MDSSBAUER SPECTROSCOPY IN CO OXIDATION 147 57 FE MDSSBAUER SPECTROSCOPY 147 119 SN MDSSBAUER SPECTROSCOPY 150 197 AU MDSSBAUER SPECTROSCOPY 151 193 IR MDSSBAUER SPECTROSCOPY 152 APPLICATION OF MDSSBAUER SPECTROSCOPY IN PROX 153 PTFE CONTAINING CATALYSTS 153 AU-BASED CATALYSTS 155 IRFE-CONTAINING CATALYSTS 158 POROUS CARBON SUPPORTED IRFE CATALYSTS 158 SIO 2 AND AL,O, SUPPORTED IRFE CATALYSTS 159 CUO/CEO 2 WITH FE 2 O 3 ADDITIVE 165 CONCLUDING REMARKS 165 ACKNOWLEDGMENTS 166 REFERENCES 166 VIII CONTENTS 6 APPLICATION OF 57 FE MOSSBAUER SPECTROSCOPY IN STUDYING FE-N-C CATALYSTS FOR OXYGEN REDUCTION REACTION IN PROTON EXCHANGE MEMBRANE FUEL CELLS 171 XINLONG XU, JUNHU WANG, SULI WANG, AND GONGQUAN SUN 6.1 6.2 6.2.1 6.2.2 INTRODUCTION 171 ADVANCED 57 FE MDSSBAUER SPECTROSCOPY TECHNIQUE 173 ROOM TEMPERATURE 57 FE MDSSBAUER SPECTROSCOPY 173 LOW TEMPERATURE AND COMPUTATIONAL 57 FE MDSSBAUER SPECTROSCOPY 174 6.2.3 6.3 6.3.1 6.3.2 6.3.3 6.3.3.1 6.3.3.2 6.4 IN SITU ELECTROCHEMICAL 57 FE MDSSBAUER SPECTROSCOPY 175 CHARACTERIZATION OF FE-N-C USING 57 FE MDSSBAUER SPECTROSCOPY 177 IDENTIFICATION OF ACTIVE SITES 177 INVESTIGATION OF DEGRADATION MECHANISM 180 OPTIMIZATION FOR SYNTHESIS OF FE-N-C 184 PRECURSOR COMPOSITION 184 HEAT TREATMENT 185 SUMMARY AND PERSPECTIVE 187 ACKNOWLEDGMENTS 188 REFERENCES 188 7 197 AU MDSSBAUER SPECTROSCOPY OF THIOLATE-PROTECTED GOLD CLUSTERS 195 NORIMICHI KOJIMA, YASUHIRO KOBAQYASHI, AND MAKOTO SETO 7.1 7.2 7.3 7.3.1 7.3.2 7.3.3 7.3.4 7.3.5 INTRODUCTION 195 SYNTHESIS OF THIOLATE PROTECTED GOLD CLUSTERS 197 197 AU MDSSBAUER SPECTROSCOPY OF GOLD NANO-CLUSTERS 198 EXPERIMENTAL PROCEDURE OF 197 AU MDSSBAUER SPECTROSCOPY 198 197 AU MDSSBAUER SPECTRA OF AU N (SG) M (N = 10^55) 198 MOLECULAR STRUCTURE AND 197 AU MDSSBAUER SPECTRA OF AU 10 (SG) 10 198 MOLECULAR STRUCTURE AND 197 AU MDSSBAUER SPECTRA OF AU 25 (SG) 18 200 STRUCTURAL EVOLUTION OF AUYY(SG)M (N = 10^55) BASED ON 197 AU MDSSBAUER SPECTROSCOPY 201 7.3.6 7.3.7 7.4 197 AU MDSSBAUER SPECTRA OF AU 2 4PD 1 (SC 12 H25) 18 204 197 AU MDSSBAUER SPECTRA OF AUYY(SC12H25)M 205 CONCLUSION 208 ACKNOWLEDGMENTS 208 REFERENCES 209 8 197 AU MDSSBAUER SPECTROSCOPY OF GOLD MIXED-VALENCE COMPLEXES, CS2[AU ' X2][AU"Y,](X, Y = CL, BR, 1) AND [NH; (CH,)YYNH]2[(AU ' 12)(AU"4) (13)21 (N = 7, 8) 213 NORIMICHI KOJIMA, YASUHIRO KOBAQYASHI, AND MAKOTO SETO 8.1 8.2 8.2.1 INTRODUCTION 213 EXPERIMENTAL PROCEDURE 216 SYNTHESIS AND CHARACTERIZATION 216 CONTENTS IX 8.2.1.1 8.2.1.2 8.2.2 8.3 8.4 8.5 8.5.1 CS[AU ' X,][AU"Y4] (X, Y = C1, BR, I) 216 [NH,(CH,),NHA]2[(AU ' T,)(AUYY1)(1,)21 (N = 7, 8) 217 197 AU MDSSBAUER SPECTROSCOPY 217 CRYSTAL STRUCTURE OF CS[AU ' X2][AUYYY4] (X, Y = C1, BR, I) 218 CHEMICAL BOND OF AU-X IN [AU I X 2 ] " AND [AU"X,] 221 MDSSBAUER PARAMETERS OF 197 AU IN [AUTX] AND [AUYYX4] 223 MDSSBAUER PARAMETERS OF 197 AU IN (C 4 H 9 ) 4 N[AU I X 2 ] AND (C,H,),N[AU"X,] 224 8.5.1.1 8.5.1.2 8.5.2 ISOMER SHIFT 224 QUADRUPOLE SPLITTING 224 MDSSBAUER PARAMETERS OF 197 AU IN CS [AUX ][AU"X4] (X = CL,BR,I) 225 8.5.2.1 8.5.2.2 8.5.23 8.6 8.7 8.7.1 8.7.2 8.73 8.7.4 8.8 8.8.1 ISOMER SHIFT 225 QUADRUPOLE SPLITTING 226 ANALYSIS OF 197 AU MDSSBAUER PARAMETERS FOR CS,[AU ' X2][AU"X4] 226 CHARGE TRANSFER INTERACTION IN CS[AU ' X,][AU"X,] (X = C1, BR, I) 227 197 AU MDSSBAUER SPECTRA OF CS[AU ' X2][AU"LY4] (X, Y = C1, BR, I) 228 ISOMER SHIFT OF AU 1 IN CS 2 [ AU ' X, ] [AU"Y4] 228 ISOMER SHIFT OF AUYY IN CS[AU ' X2][AU"LY4] 230 QUADRUPOLE SPLITTING OF AU 1 IN CS[AU ' X2I[AU"Y4] 230 QUADRUPOLE SPLITTING OF AUYY IN CS[AUYYX ][AUYYY4] 231 SINGLE CRYSTAL 197 AU MDSSBAUER SPECTRA OF CS[AU ' 1,][AUYY1] 231 COMPARISON OF 197 AU MDSSBAUER SPECTRA BETWEEN SINGLE CRYSTAL AND POWDER CRYSTAL 231 8.8.2 8.9 SIGN OF EFG FOR AU 1 IN [AU 1 ^] - AND AUYY IN [AUMX,] 234 197 AU MDSSBAUER SPECTRA OF CS[AU ' X,][AU"X,] (X = C1,1) UNDER HIGH PRESSURES 235 8.9.1 8.9.2 8.93 8.10 PHASE DIAGRAM OF CS[AU ' X2][AU"X,] (X = C1, BR, I) 235 ORIGIN OF METALLIC MIXED-VALENCE STATE IN CS[AU ' C12][AU"CI] 236 AU VALENCE TRANSITION IN CS 2 [AU I I 2 ][AU III I 4 ] 239 197 AU MDSSBAUER SPECTRA OF [NH 3 (CH 2 ) N NH 3 ] 2 [(AUYY1,)(AUL1,)(1,)2] (N = 7,8) 241 8.11 CONCLUSION 243 ACKNOWLEDGMENTS 244 REFERENCES 245 9 TEMPERATURE AND PHOTO-INDUCED SPIN-CROSSOVER IN MOLECULE-BASED MAGNETS 251 HIROKO TOKORO, KENTA IMOTO, AND SHIN-ICHI OHKOSHI 9.1 9.2 INTRODUCTION 251 SPIN-CROSSOVER PHENOMENA IN CESIUM IRON HEXACYANIDOCHROMATE PRUSSIAN BLUE ANALOG 252 93 LIGHT-INDUCED SPIN-CROSSOVER MAGNET IN IRON OCTACYANIDONIOBATE BIMETAL ASSEMBLY 254 X I CONTENTS 9.4 CHIRAL PHOTOMAGNETISM AND LIGHT-CONTROLLABLE SECOND HARMONIC LIGHT IN IRON OCTACYANIDONIOBATE BIMETAL ASSEMBLY 258 9.5 CONCLUSION AND PERSPECTIVE 265 REFERENCES 265 10 DEVELOPING A METHODOLOGY TO OBTAIN NEW PHOTOSWITCHABLE FE(LL) SPIN CROSSOVER COMPLEXES 271 VARUN KUMAR AND YANN GARCIA 10.1 INTRODUCTION AND CONTEXT 271 10.2 INTRODUCTION TO A NEW PHOTO-RESPONSIVE ANION: PSCA 275 10.3 COMBINING FE(II) AND PSCA TOGETHER IN A SINGLE COMPOUND 276 10.4 FE(II) MONONUCLEAR COMPLEXES WITH DMPP AND PSCA LIGANDS 278 10.5 1D FE(II) COORDINATION POLYMER WITH PSCA AS NON-COORDINATED ANIONS 281 10.6 CONCLUSIONS AND PERSPECTIVES 284 REFERENCES 285 11 57 FE MDSSBAUER SPECTROSCOPY AS A PRIME TOOL TO EXPLORE A NEW FAMILY OF COLORIMETRIC SENSORS 291 LI SUN, WEIYANG LI, AND YANN GARCIA 11.1 INTRODUCTION AND GENERAL CONTEXT 291 11.2 COLORIMETRIC GAS SENSORS BASED ON FE(II) COMPLEXES 292 11.3 CONCLUSIONS AND PERSPECTIVES 306 REFERENCES 306 INDEX 311
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spelling	Mössbauer spectroscopy applications in chemistry and materials science edited by Yann Garcia, Junhu Wang, and Tao Zhang Weinheim Wiley-VCH [2024] © 2024 xiii, 316 Seiten Illustrationen 24.4 cm x 17 cm txt rdacontent n rdamedia nc rdacarrier Mößbauer-Spektroskopie (DE-588)4170352-2 gnd rswk-swf Analyse u. Charakterisierung von Nanosystemen Analysis/Characterization of Nanosystems CH15: Spektroskopie Chemie Chemistry MSA0: Werkstoffprüfung Materials Characterization Materials Science Materialwissenschaften NT80: Analyse u. Charakterisierung von Nanosystemen Nanotechnologie Nanotechnology Spectroscopy Spektroskopie Werkstoffprüfung (DE-588)4143413-4 Aufsatzsammlung gnd-content Mößbauer-Spektroskopie (DE-588)4170352-2 s DE-604 Garcia, Yann (DE-588)1260237060 edt Wang, Junhu (DE-588)1315449897 edt Zhang, Tao edt Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-527-82494-6 Erscheint auch als Online-Ausgabe, EPUB 978-3-527-82493-9 Erscheint auch als Online-Ausgabe, oBook 978-3-527-82495-3 X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34691-2/ DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034310300&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Mössbauer spectroscopy applications in chemistry and materials science Mößbauer-Spektroskopie (DE-588)4170352-2 gnd
subject_GND	(DE-588)4170352-2 (DE-588)4143413-4
title	Mössbauer spectroscopy applications in chemistry and materials science
title_auth	Mössbauer spectroscopy applications in chemistry and materials science
title_exact_search	Mössbauer spectroscopy applications in chemistry and materials science
title_exact_search_txtP	Mössbauer spectroscopy applications in chemistry and materials science
title_full	Mössbauer spectroscopy applications in chemistry and materials science edited by Yann Garcia, Junhu Wang, and Tao Zhang
title_fullStr	Mössbauer spectroscopy applications in chemistry and materials science edited by Yann Garcia, Junhu Wang, and Tao Zhang
title_full_unstemmed	Mössbauer spectroscopy applications in chemistry and materials science edited by Yann Garcia, Junhu Wang, and Tao Zhang
title_short	Mössbauer spectroscopy
title_sort	mossbauer spectroscopy applications in chemistry and materials science
title_sub	applications in chemistry and materials science
topic	Mößbauer-Spektroskopie (DE-588)4170352-2 gnd
topic_facet	Mößbauer-Spektroskopie Aufsatzsammlung
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34691-2/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034310300&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT garciayann mossbauerspectroscopyapplicationsinchemistryandmaterialsscience AT wangjunhu mossbauerspectroscopyapplicationsinchemistryandmaterialsscience AT zhangtao mossbauerspectroscopyapplicationsinchemistryandmaterialsscience AT wileyvch mossbauerspectroscopyapplicationsinchemistryandmaterialsscience

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