Verfügbarkeit: Organometallic compounds

Organometallic compounds: synthesis, reactions, and applications

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Weitere Verfasser:	Verma, Dakeshwar Kumar (HerausgeberIn), Aslam, Jeenat (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH [2023]
Schlagworte:	Metallorganische Chemie Metallorganische Verbindungen CH40: Katalyse CH72: Koordinationschemie CH86: Organometallchemie Catalysis Chemie Chemistry Coordination Chemistry Katalyse Koordinationschemie Organometallchemie Organometallic Chemistry Aufsatzsammlung
Online-Zugang:	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-35178-7/ Inhaltsverzeichnis
Beschreibung:	xxi, 420 Seiten Illustrationen
ISBN:	9783527351787 3527351787

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Datensatz im Suchindex

_version_	1804184904477442048
adam_text	CONTENTS PREFACE XIX ABOUT THE EDITORS XXI 1 ORGANOMETALLIC COMPOUNDS: THE FUNDAMENTAL ASPECTS 1 GEETHA B. MARKANDEYA AND SRINIVASA BUDAGUMPI 1.1 1.1.1 1.1.2 1.1.3 1.2 1.2.1 1.2.2 1.2.3 1.2.4 1.2.5 1.2.6 1.2.7 INTRODUCTION 1 ORGANOMETALLIC CHEMISTRY 1 ORGANOMETALLIC COMPOUNDS 1 STRUCTURE OF ORGANOMETALLIC COMPOUND 1 MILESTONES IN ORGANOMETALLIC COMPOUNDS 2 EQUATION (1.1): SYNTHESIS OF FIRST ORGANOMETALLIC COMPOUND 2 EQUATION (1.2): PREPARATION OF ZEISE S SALT 2 EQUATIONS (1.3)-(1.5): PREPARATION OF ORGANOCHLOROSILANE COMPOUND 3 EQUATION (1.6): SYNTHESIS OF FIRST METAL CARBONYL COMPOUND 3 EQUATION (1.7): SYNTHESIS OF FIRST BINARY METAL CARBONYL COMPLEX 3 EQUATION (1.8): BARBIER REACTION 3 EQUATION (1.9): SYNTHESIS OF ORGANIC COMPOUND USING A GRIGNARD REAGENT 4 1.2.8 1.2.9 1.2.10 1.2.11 1.2.12 1.2.13 1.2.14 1.2.15 1.2.16 1.3 1.4 1.5 1.5.1 1.5.1.1 1.5.1.2 EQUATIONS (1.10) AND (1.11): SYNTHESIS OF ALKYLLITHIUM COMPOUND 4 EQUATIONS (1.12) AND (1.13): SYNTHESIS OF ORGANOLITHIUM COMPOUND 4 EQUATION (1.14): HYDROFORMYLATION REACTION 4 EQUATION (1.15): SYNTHESIS OF ORGANOCHLOROSILANE COMPOUND 4 EQUATION (1.16): TRIMERIZATION OF ACETYLENE 5 EQUATION (1.17): SYNTHESIS OF FERROCENE 5 EQUATION (1.18): ASYMMETRIC CATALYSIS REACTION 5 EQUATION (1.19): PALLADIUM CATALYZED SUZUKI COUPLING REACTION 6 EQUATION (1.20): SYNTHESIS OF BUCKY FERROCENE 8 STABILITY OF ORGANOMETALLIC COMPOUNDS 9 PROPERTIES OF ORGANOMETALLIC COMPOUNDS 9 BASIC CONCEPTS IN ORGANOMETALLIC COMPOUNDS 9 18-ELECTRON RULE 9 STATEMENT OF 18 ELECTRON RULE 10 EXAMPLES 11 VI J CONTENTS 1.5.2 II -BACK BONDING OR BACK DONATION 12 1.5.3 HAPTICITY N 12 1.6 HAPTICITY OF LIGANDS 12 1.7 CHANGE IN HAPTICITY 13 1.8 HAPTICITY VERSES DENTICITY 14 1.9 COUNTING OF ELECTRONS AND FINDING OUT METAL-METAL BONDS 15 1.9.1 CALCULATING THE NUMBER OF METAL-METAL BONDS 15 1.9.2 WRITING THE PROBABLE STRUCTURE OF COMPOUND 15 1.9.3 HOW TO DRAW THE PROBABLE STRUCTURE OF NI(N -C,H,) (N3-C,H,) 15 1.9.4 HOW TO DRAW THE PROBABLE STRUCTURE OF (U-CO)-[N5-CPRH],(CO) 15 1.10 METALS OF ORGANOMETALLIC COMPOUNDS 16 1.10.1 ORGANOMETALLIC COMPOUNDS OF TRANSITION METALS 17 1.10.2 THE BONDING AND STRUCTURE IN DIFFERENT METAL COMPLEXES 17 1.10.2.1 ALKENE COMPLEXES 17 1.10.2.2 ALLYL COMPLEXES 17 1.10.2.3 CARBONYL COMPLEXES 17 1.10.2.4 METALLOCENES 18 1.10.2.5 DIHYDROGEN COMPLEXES 18 1.10.2.6 TRANSITION METAL CARBENE COMPLEX 18 1.11 IMPORTANCE OF ORGANOMETALLIC COMPOUNDS 19 1.11.1 TYPES OF ORGANOMETALLIC COMPOUNDS 19 1.11.2 USES OF ORGANOMETALLIC COMPOUNDS 20 1.12 CONCLUSIONS 20 REFERENCES 21 2 NOMENCLATURE OF ORGANOMETALLIC COMPOUNDS 25 RAJ K. RATHORE, SADHUCHORAN MALLICK, AND BHAVABHUTI PRASAD 2.1 INTRODUCTION 25 2.2 AIM OF THE NOMENCLATURE 26 2.3 TYPE OF NOMENCLATURE SYSTEM 26 2.3.1 BINARY NOMENCLATURE 26 2.3.2 SUBSTITUTIVE NOMENCLATURE 27 2.3.3 ADDITIVE NOMENCLATURE OR COORDINATION NOMENCLATURE 27 2.4 CONCEPTS AND CONVENTIONS 28 2.4.1 OXIDATION NUMBER 28 2.4.2 COORDINATION NUMBER 29 2.4.3 CHELATION 29 2.4.4 LIGANDS 29 2.4.5 SPECIFYING CONNECTIVITY - THE KAPPA ( K ) CONVENTION 30 2.4.6 BRIDGING LIGANDS - THE MU (U) CONVENTION 31 2.4.7 HAPTICITY - THE ETA (N) CONVENTION 33 2.5 REGULATIONS CONCERNING THE NOMENCLATURE OF TRANSITION ELEMENT ORGANOMETALLIC COMPOUNDS 36 REFERENCES 46 CONTENTS VII 3 CLASSIFICATION OF ORGANOMETALLIC COMPOUNDS 47 MUKESH K. TYAGI, GOKUL R. NISHAD, DAKESHWAR KUMAR VERMA, LEI GUO, AND ELYOR BERDIMURODOV 3.1 3.2 3.2.1 3.2.2 3.2.3 3.2.4 3.2.4.1 3.3 3.3.1 3.3.2 3.3.2.1 3.3.2.2 3.3.2.3 3.3.2.4 3.3.2.5 3.3.2.6 3.3.2.7 3.3.2.8 3.4 3.4.1 3.4.2 3.5 3.5.1 3.5.2 3.6 3.6.1 3.6.2 3.6.3 3.7 INTRODUCTION 47 CLASSIFICATION OF ORGANOMETALLIC COMPOUND 48 SIGMA-BONDED ORGANOMETALLIC COMPOUND 48 X-BONDED ORGANOMETALLIC COMPOUNDS 50 IONIC BONDED ORGANOMETALLIC COMPOUNDS 51 MULTICENTERED BONDED ORGANOMETALLIC COMPOUNDS 53 BASED ON HEPTACITY (N1 TO N8): 53 GRIGNARD REAGENT (G.R.) 54 PHYSICAL PROPERTIES 54 CHEMICAL PROPERTIES 54 ALKANES 54 ALKENES 56 ALKYNES 56 ETHERS 56 REACTION WITH CARBON DIOXIDE 56 INSERTION REACTION 56 SYNTHESIS OF SILICONES 56 NUCLEOPHILIC SUBSTITUTION 57 ORGANOZINC COMPOUNDS 59 PHYSICAL PROPERTIES 59 CHEMICAL PROPERTIES 59 ORGANOLITHIUM COMPOUNDS 61 REACTION RESEMBLING GRIGNARD REAGENTS 61 REACTIONS DIFFERENT FROM GRIGNARD REAGENTS 64 ORGANOSULFUR COMPOUNDS 65 PHYSICAL PROPERTIES 65 CHEMICAL PROPERTIES 65 PROPERTIES DIFFERENT FROM ALCOHOLS 67 CONCLUSION 69 REFERENCES 69 4 SYNTHESIS METHODS OF ORGANOMETALLIC COMPOUNDS 71 OMAR DAGDAG, RAJESH HALDHAR, SEONG-CHEOL KIM, ELYOR BERDIMURODOV, EKEMINI D. AKPAN, AND ENO E. EBENSO 4.1 4.2 4.2.1 INTRODUCTION 71 SYNTHESIS METHODS OF ORGANOMETALLIC COMPOUNDS 72 ELECTROCHEMICAL METHODS FOR THE SYNTHESIS OF ORGANOMETALLIC COMPOUNDS 72 4.2.1.1 4.2.1.2 SYNTHESIS OF CYANO CU(I) COMPLEXES IN THE ELECTROCHEMICAL CELL 72 SYNTHESIS OF AN ORGANORHENIUM CYCLOPENTADIENYL COMPLEX IN THE ELECTROCHEMICAL CELL 72 VIII CONTENTS 4.2.13 SYNTHESIS OF N-HETEROCYCLIC CARBENE COMPLEXES IN THE ELECTROCHEMICAL CELL 73 4.2.1.4 SYNTHESIS OF ORGANOCOPPER (I) T-COMPLEXES IN THE ELECTROCHEMICAL CELL 73 4.2.1.5 4.2.2 SYNTHESIS OF ORGANONICKEL O-COMPLEXES IN THE ELECTROCHEMICAL CELL 73 SYNTHESIS OF ORGANIC COMPOUNDS IN THE ELECTROCHEMICAL CELL BY METAL ORGANIC CATALYSTS 75 4.2.2.1 THE SYNTHESIS OF ORGANIC COMPOUNDS IN THE ELECTROCHEMICAL CELL BY THE NI-ORGANIC CATALYZE 75 4.2.2.2 THE SYNTHESIS OF ORGANIC COMPOUNDS IN THE ELECTROCHEMICAL CELL BY THE PD-ORGANIC CATALYSES 75 4.2.23 SYNTHESIS OF ORGANIC COMPOUNDS IN THE ELECTROCHEMICAL CELL BY THE SM-ORGANIC CATALYSES 78 4.23 4.23.1 4.23.2 4.2.33 4.23.4 4.23.5 4.23.6 43 SYNTHESIS OF ORGANOMETALLIC NUCLEOSIDES 79 A CATEGORY: MAIN COMPOUNDS 79 A1 SUBCATEGORY: MAIN COMPOUNDS 79 B CATEGORY: MAIN COMPOUNDS 80 C CATEGORY: MAIN COMPOUNDS 81 C1 SUBCATEGORY: MAIN COMPOUNDS 81 D CATEGORIES: MAIN COMPOUNDS 82 CONCLUSIONS 84 ACKNOWLEDGMENT 84 AUTHORS CONTRIBUTIONS 84 CONFLICTS OF INTEREST 84 REFERENCES 84 5 METAL CARBONYLS: SYNTHESIS, PROPERTIES, AND STRUCTURE 87 RAMESH RENGAN 5.1 5.2 5.2.1 5.2.1.1 5.2.1.2 5.2.2 INTRODUCTION 87 CLASSIFICATION OF METAL CARBONYLS 87 CLASSIFICATION BASED ON COORDINATED LIGANDS 87 HOMOLEPTIC CARBONYLS 88 HETEROLEPTIC CARBONYLS 88 CLASSIFICATION BASED ON NUMBER OF METALS AND THE CONSTITUTION OF CARBONYLS 88 5.2.2.1 5.2.2.2 53 53.1 53.2 533 5.3.4 5.4 5.4.1 5.4.2 MONONUCLEAR CARBONYL COMPLEXES 88 POLYNUCLEAR CARBONYL COMPLEXES 89 SYNTHESIS OF METAL CARBONYLS 90 DIRECT REACTION OF METAL WITH CARBON MONOXIDE 90 REDUCTIVE CARBONYLATION 90 PHOTOLYSIS AND THERMOLYSIS 91 ABSTRACTION OF CO FROM A REACTIVE ORGANIC CARBONYL COMPOUNDS 91 PROPERTIES OF METAL CARBONYLS 92 PHYSICAL PROPERTIES 92 CHEMICAL PROPERTIES 92 CONTENTS IX 5.4.2.1 5.4.2.2 5.4.2.3 5.4.2.4 5.4.2.5 5.4.2.6 5.4.2.7 5.5 5.5.1 5.5.2 5.6 5.6.1 5.7 5.8 LIGAND SUBSTITUTION REACTIONS 92 REACTION WITH SODIUM METAL 95 REACTION WITH SODIUM HYDROXIDE 95 REACTION WITH HALOGENS 95 REACTION WITH HYDROGEN 96 REACTION WITH NITRICOXIDE (NO) 96 DISPROPORTIONATION 96 STRUCTURE OF METAL CARBONYLS 97 STRUCTURES OF SOME MONONUCLEAR CARBONYL COMPLEXES 97 STRUCTURES OF SOME BI AND POLYNUCLEAR CARBONYL COMPLEXES 98 BONDING IN METAL CARBONYLS 99 FORMATION OF MIXED ATOMIC ORBITALS 99 SYNERGISTIC EFFECT 103 CONCLUSION 103 FURTHER READING 104 REFERENCES 104 6 METAL-CARBON MULTIPLE BONDED COMPOUNDS 107 RAKESH KUMAR SAHU, MUKESH KUMAR TYAGI, AND RAJESH HALDHAR 6.1 6.2 6.3 6.3.1 6.3.2 6.4 6.4.1 6.4.2 6.5 6.5.1 6.5.1.1 6.5.1.2 6.5.2 6.6 6.6.1 6.6.2 6.7 INTRODUCTION 107 NOMENCLATURE 109 CLASSIFICATIONS 111 METAL-ALKYLIDENE COMPLEXES 111 METAL-ALKYLIDYNE COMPLEXES 111 STRUCTURE 111 ALKYLIDENE (CARBENE) 111 CARBYNE (ALKYLIDYNE) 113 PREPARATION METHODS 114 METAL-ALKYLIDENE COMPLEXES 114 BY NUCLEOPHILIC CARBENE 115 BY ELECTROPHILIC ALKYLIDENES 116 METAL-ALKYLIDYNE COMPLEXES 118 IMPORTANT REACTIONS 119 REACTION OF ALKYLIDENE METATHESIS 119 IMPORTANT REACTION OF ALKYLIDYNE METATHESIS 124 APPLICATIONS 125 REFERENCES 127 7 METALLOCENE: SYNTHESIS, PROPERTIES, AND STRUCTURE 131 AMARPREET K. BHATIA, PRIYANKA SINGH, AND SHIPPI DEWANGAN 7.1 7.2 7.3 7.4 7.4.1 INTRODUCTION 131 STRUCTURE OF METALLOCENE 132 SYNTHESIS OF METALLOCENE 134 CHEMICAL PROPERTIES OF METALLOCENE 136 FERROCENE AND ITS DERIVATIVES 136 X CONTENTS 7.4.2 7.4.3 7.4.4 7.4.4.1 7.4.4.2 7.4.4.3 7.5 OTHER METALLOCENE SANDWICHES 138 MAIN-GROUP METALLOCENE 139 METAL-BIS-ARENE SANDWICH COMPLEXES 140 GENERAL VIEW 140 STRUCTURE 142 REACTIONS 142 CONCLUSION 144 REFERENCES 144 8 G-COMPLEXES, ^-COMPLEXES, AND N -CYYR, CARBOCYCLIC POLYENES-BASED ORGANOMETALLIC COMPOUNDS 147 SHIPPI DEWANGAN, JEENAT ASLAM, AND AMARPREET K. BHATIA 8.1 8.2 8.2.1 8.2.1.1 8.2.1.2 8.2.1.3 8.2.1.4 8.2.2 8.2.2.1 8.2.2.2 8.2.2.3 8.2.2.4 8.3 8.3.1 8.3.1.1 8.3.1.2 8.3.1.3 8.3.2 8.3.3 8.3.4 8.3.4.1 8.3.4.2 8.3.4.3 8.4 INTRODUCTION 147 O-BOND CONTAINING ORGANOMETALLIC COMPOUNDS 148 METAL CARBONYL 148 GENERAL OVERVIEW 148 SYNTHESES OF METAL CARBONYLS 148 STRUCTURE OF METAL CARBONYLS 149 REACTIONS OF METAL CARBONYLS 150 METAL-ALKYL, -VINYL, AND -HYDRIDE COMPLEXES 150 METAL ALKYLS 150 METAL VINYLS 152 METAL HYDRIDES 152 METAL-CARBENE COMPLEXES 154 X-BOND CONTAINING ORGANOMETALLIC COMPOUNDS 156 METAL-OLEFIN COMPLEXES 156 GENERAL OVERVIEW 156 SYNTHESES OF METAL-OLEFIN COMPLEXES 157 REACTIONS OF METAL-OLEFIN COMPLEXES 157 METAL-DIENE COMPLEXES 157 METAL-ALKYNE COMPLEXES 158 K-ALLYL COMPLEXES 158 STRUCTURE OF A-ALLYL COMPLEXES 158 SYNTHESES OF A ALLYL COMPLEXES 159 REACTIONS OF A ALLYL COMPLEXES 160 N -CAR, CARBOCYCLIC POLYENES CONTAINING ORGANOMETALLIC COMPOUNDS 161 8.4.1 8.4.2 8.4.3 8.4.3.1 8.4.3.2 8.4.3.3 8.4.3.4 8.4.3.5 CYCLOPROPENYLS, N3-C3R, 161 CYCLOBUTADIENES, N4-C4R4 161 CYCLOPENTADIENYLS, N5 - C 5 R, 162 GENERAL OVERVIEW 162 STRUCTURE OF METALLOCENE 162 SYNTHESES OF METALLOCENE 163 CHEMICAL PROPERTIES OF METALLOCENE 164 APPLICATIONS OF METALLOCENE 165 CONTENTS XI 8.5 CONCLUSION 166 REFERENCES 166 9 ORGANOMETALLIC COMPLEXES OF THE LANTHANIDES AND ACTINIDES 169 SHIPPI DEWANGAN, AMARPREET K. BHATIA, AND PRIYANKA SINGH 9.1 9.2 9.2.1 9.2.2 9.2.3 9.2.4 9.2.5 9.3 9.3.1 9.3.1.1 9.3.1.2 9.4 9.4.1 9.4.2 9.4.3 9.4.3.1 9.5 9.5.1 9.5.2 9.5.3 9.5.4 9.6 9.6.1 9.6.2 9.6.3 9.6.4 9.6.5 9.6.6 9.6.7 9.6.8 9.6.9 9.6.10 9.6.11 9.6.12 9.6.13 9.7 9.7.1 9.7.1.1 9.7.1.2 INTRODUCTION 169 METHODS OF PREPARATION 169 SALT ELIMINATION 171 METAL VAPOR SYNTHESIS METHOD 173 METATHESIS REACTION METHOD 174 O-BOND METATHESIS 174 ACID-BASE METHOD 175 ORGANOMETALLIC COMPOUNDS OF LANTHANIDES 175 TYPES 175 O-BONDED COMPLEXES 176 N-BONDED ORGANOMETALLIC COMPOUNDS 177 ORGANOMETALLIC COMPOUNDS OF ACTINIDES 180 TYPES 180 O-BONDED COMPLEXES 180 K-BONDED COMPLEXES 182 CYCLOPENTADIENYL DERIVATIVES 182 STABILITY 185 MAINTAINING ANHYDROUS AND ANAEROBIC CONDITIONS 185 AVOIDING ELIMINATION REACTIONS 186 BLOCKING THE COORDINATION SITES 186 DONOR-FUNCTIONALIZED CHELATING PENDANT DONOR LIGANDS 186 PROPERTIES 186 THERMODYNAMIC AND KINETIC CONSIDERATIONS 187 SOLVATION 187 AGGREGATION 187 DONOR-ACCEPTOR INTERACTIONS 187 SALT OCCLUSION OR ATE COMPLEXATION 188 NEUTRAL A-DONOR LIGATION 188 AGOSTIC INTERACTIONS 189 COMPLEX AGGLOMERATION 189 LIGAND EXCHANGE AND REDISTRIBUTION REACTIONS 189 INSERTION REACTIONS 190 ELIMINATION REACTIONS 190 REDOX CHEMISTRY 191 REACTION SEQUENCES - CATALYTIC CYCLES 192 APPLICATIONS OF ORGANOLANTHANOIDS AND ORGANOACTINOIDS 193 CATALYTIC APPLICATIONS 193 CATALYSIS OF POLYMERIZATION 193 CATALYSTS AND REAGENTS FOR REDUCTION PROCESSES 193 XII CONTENTS 9.7.1.3 9.7.2 9.8 CATALYSTS AND REAGENTS FOR OXIDATION PROCESSES 195 MISCELLANEOUS APPLICATIONS 197 CONCLUSION 197 FURTHER READING 197 10 BIOORGANOMETALLIC CHEMISTRY 201 PRIYANKA TIWARI 10.1 10.2 10.2.1 10.2.2 10.2.3 10.2.4 10.2.5 10.3 10.3.1 10.3.2 10.3.3 10.3.3.1 10.3.3.2 10.3.3.3 10.3.3.4 10.4 10.4.1 10.4.2 10.5 10.6 10.7 INTRODUCTION 201 COBALAMIN: VITAMIN B 12 -COENZYME 202 OCCURRENCE AND FUNCTION 202 STRUCTURE 202 B^-DEPENDENT ENZYMES 203 OCCURRENCE 203 FUNCTION 203 METALLOPROTEINS 204 OCCURRENCE 204 FUNCTIONS 204 ELECTRON TRANSFERASES 204 FLAVODOXINS 205 BLUE COPPER PROTEINS 205 IRON-SULFUR PROTEINS 205 CYTOCHROMES 207 OXIDOREDUCTASE 207 IRON-PORPHYRIN COMPLEXES 208 MONOOXYGENASES 208 NITROGENASES-CATALYZING NITROGEN FIXATION 209 NICKEL ENZYMES: CODH 211 CONCLUSION 212 REFERENCES 213 11 IMPORTANT REACTIONS OF ORGANOMETALLIC COMPOUNDS 215 SANDEEP K. VAISHNAV AND PRIYANKA SINGH 11.1 11.2 11.2.1 11.2.1.1 11.2.1.2 11.2.1.3 11.2.2 11.2.2.1 11.2.2.2 11.2.2.3 11.2.2.4 11.3 11.3.1.1 INTRODUCTION 215 REACTIONS INVOLVING GAIN OR LOSS OF LIGANDS 215 ASSOCIATIVE AND DISSOCIATIVE SUBSTITUTION 216 DISSOCIATION OF CARBONYLS 216 DISSOCIATION OF NITROSYLS 217 DISSOCIATION OF PHOSPHINE 217 OXIDATIVE ADDITION AND C - H BOND ACTIVATION 218 MECHANISM 219 BINUCLEAR OXIDATIVE ADDITION 221 CYCLOMETALLATIONS 222 NUCLEOPHILIC DISPLACEMENT 222 REDUCTIVE ELIMINATION AND PD-CATALYZED CROSS COUPLING 223 BINUCLEAR REDUCTIVE ELIMINATION 224 CONTENTS \| XIII 11.4 11.4.1 11.4.1.1 11.4.1.2 11.4.1.3 11.4.2 11.4.2.1 11.4.3 11.4.3.1 11.5 REACTIONS INVOLVING MODIFICATION OF LIGANDS 225 INSERTION 225 CARBONYL INSERTION (ALKYL MIGRATION) 226 OLEFIN INSERTION 230 OTHER INSERTION REACTION 232 HYDRIDE ELIMINATION 233 AVOIDANCE OF P-HYDROGEN ELIMINATION 235 ABSTRACTION 236 NUCLEOPHILIC ABSTRACTION 237 CONCLUSION 240 REFERENCES 240 12 CHARACTERIZATION TECHNIQUES OF ORGANOMETALLIC COMPOUNDS 245 JAVAD B. M. PARAMBATH AND AHMED A. MOHAMED 12.1 12.2 12.2.1 12.2.2 12.2.3 12.2.4 12.2.5 12.2.6 12.3 12.3.1 12.3.2 12.3.3 12.3.4 12.3.5 12.4 INTRODUCTION 245 CONVENTIONAL METHODS 246 NUCLEAR MAGNETIC RESONANCE (NMR) SPECTROSCOPY 246 INFRARED AND RAMAN SPECTROSCOPY 248 UV-VISIBLE SPECTROSCOPY 251 X-RAY CRYSTALLOGRAPHY 252 MASS SPECTROSCOPY 253 ELEMENTAL ANALYSIS 255 UNCONVENTIONAL METHODS 256 NEUTRON ACTIVATION ANALYSIS 256 X-RAY PHOTOELECTRON SPECTROSCOPY 256 ELECTRON DIFFRACTION CRYSTALLOGRAPHY AND MICROELECTRON DIFFRACTION 258 MOSSBAUER SPECTROSCOPY 259 ELECTROANALYTICAL METHODS 259 CONCLUSION 260 REFERENCES 261 13 ORGANOMETALLIC REAGENTS 267 RANJAN K. BOSAK AND ASHISH K. ASOTKAR 13.1 13.1.1 13.1.2 13.1.2.1 13.1.2.2 13.1.2.3 13.1.2.4 13.1.2.5 13.1.2.6 13.2 13.2.1 ORGANOBORON REAGENTS 267 INTRODUCTION 267 MAIN ORGANOBORON REAGENTS AND THEIR REACTIONS 267 HYDROBORATION AND SUBSEQUENT REACTIONS 267 SUZUKI COUPLING 273 ACYLTRIFLUOROBORATES 277 ALLYLATION 278 CHAN-LAM COUPLING 279 PETASIS REACTION 279 ORGANOCOPPER REAGENTS 280 INTRODUCTION 280 XIV CONTENTS 13.2.2 TYPES OF ORGANOCUPRATES REAGENTS 281 13.2.2.1 GILMAN REAGENT (R 2 CUM) 281 13.2.2.2 HIGHER ORDER ORGANOCUPRATES (RCUCNLI,) 282 13.2.2.3 GRIGNARD COPPER(I) REAGENTS (RMGX-CUY) 282 13.2.3 REACTIONS OF ORGANOCUPRATES 283 13.2.3.1 INCREASING CHAIN LENGTH OF ALKYL HALIDES 283 13.2.3.2 ALKYLATION OF THE ALLYLIC HALIDES 284 13.2.3.3 REACTION WITH VINYL HALIDES 284 13.2.3.4 ALKYLATION OF ACYL HALIDES 284 13.2.3.5 EPOXIDE OPENING 285 13.2.3.6 CONJUGATE ADDITIONS 285 13.2.3.7 CONJUGATE ADDITION IN PRESENCE OF LEWIS ACID AND ELECTROPHILES 286 13.2.3.8 O-TRAPPING AND C-TRAPPING REACTION 287 13.2.3.9 SYNTHESIS OF ALLENES 287 13.3 ORGANOPALLADIUM REAGENTS 288 13.3.1 INTRODUCTION 288 13.3.2 TYPES OF C-C CROSS-COUPLING REACTION CATALYZED BY PALLADIUM METAL 289 13.3.2.1 HECK REACTION 289 13.3.2.2 NEGISHI COUPLING 290 13.3.2.3 SUZUKI COUPLING 291 13.3.2.4 STILLE COUPLING 291 13.3.2.5 KUMADA COUPLING 292 13.3.2.6 HIYAMA COUPLING 293 13.3.2.7 SONOGASHIRA COUPLING 293 13.3.2.8 BUTCHWALD-HARTWIG COUPLING 294 13.3.2.9 CYANATION REACTION 294 13.3.2.10 CARBONYLATION REACTION 295 13.4 GRIGNARD REAGENTS 296 13.4.1 INTRODUCTION 296 13.4.2 SYNTHESIS 296 13.4.3 REACTIVITY 297 REFERENCES 298 14 HOMOGENEOUS AND HETEROGENEOUS CATALYSIS BY ORGANOMETALLIC COMPLEXES 301 RATNAKAR D. SHUKLA, BHAWNA JAIN, KULESHWAR PATEL, PRIYANKA SINGH, DAKESHWAR KUMAR VERMA, REEMA SAHU, AND RAGHVENDRA K. MISHRA 14.1 INTRODUCTION 301 14.2 ORGANOMETALLIC COMPOUNDS AND HOMOGENEOUS CATALYSIS 302 14.3 CATALYTIC ELEMENTARY REACTIONS 303 14.3.1 ISOMERIZATION 304 14.3.2 ALKENE ISOMERIZATION 305 14.3.3 ALKYNE ISOMERIZATION 305 14.3.4 DIENE ISOMERIZATION 306 CONTENTS XV 14.4 14.5 14.6 14.7 14.8 14.9 14.9.1 14.9.1.1 14.9.2 14.9.3 14.10 HYDROGENATION 306 CARBON-CARBON BOND FORMATION 307 METATHESIS 308 OXIDATION 309 REACTIONS WITH CARBON MONOXIDE 311 HETEROGENOUS CATALYSIS 311 ZIEGLER-NATTA CATALYST 313 STEREOREGULARITY 313 WATER GAS REACTION 315 ZEOLITES 316 CONCLUSION 317 REFERENCES 318 15 CLUSTER COMPOUNDS: BORANES, HETEROBORANES, AND METALLABORANES 321 ELYOR BERDIMURODOV, KHASON BERDIMURODOV, ABDUVALI KHOLIKOV, KHAMDOM AKBAROV, OMAR DAGDAG, BRAHIM EL IBRAHIMI, AND DAKESHWAR KUMAR VERMA 15.1 15.1.1 INTRODUCTION 321 FUNDAMENTALS OF CLUSTER COMPOUNDS: BORANES, HETEROBORANES, AND METALLABORANES 321 15.2 15.2.1 MAIN PART 324 CLUSTER COMPOUNDS OF BORANES AND HETEROBORANES: SYNTHESIS, REACTIONS, AND APPLICATIONS 324 15.2.1.1 15.2.1.2 15.2.1.3 15.2.1.4 15.2.2 BASICS 324 SYNTHESIS 324 REACTIONS 324 APPLICATIONS 327 CLUSTER COMPOUNDS OF METALLABORANES: SYNTHESIS, REACTIONS, AND APPLICATIONS 327 15.2.2.1 15.2.2.2 15.2.2.3 15.2.2.4 15.3 BASICS 327 SYNTHESIS 327 REACTIONS 330 APPLICATIONS 330 CONCLUSION 332 REFERENCES 332 16 APPLICATIONS OF ORGANOMETALLIC COMPOUNDS FOR CARBON DIOXIDE FIXATION, REDUCTION, GAS ADSORPTION, AND GAS PURIFICATION 335 ZHOVETA YHOBU, MONICA VIJAYAKUMOR, NAGARAJU D. HANUMANTHARAYUDU, AND SRINIVASA BUDOGUMPI 16.1 16.2 16.2.1 16.2.2 ORGANOMETALLIC COMPOUNDS FOR FIXATION OF CO 2 335 ORGANOMETALLIC COMPOUNDS IN REDUCTION OF CO 2 336 NICKEL COMPLEXES 338 IRON AND MANGANESE COMPLEXES 339 XVI CONTENTS 16.2.3 16.2.4 16.2.5 16.2.6 16.3 16.3.1 16.3.2 16.3.2.1 16.3.2.2 16.4 16.4.1 16.4.2 16.4.3 COPPER AND COBALT COMPLEXES 341 PALLADIUM COMPLEXES 342 RUTHENIUM, RHENIUM, AND RHODIUM COMPLEXES 343 N-HETEROCYCLIC CARBENES 344 ORGANOMETALLIC COMPOUNDS IN GAS ADSORPTION AND PURIFICATION 346 METAL ORGANIC FRAMEWORKS (MOFS) FOR GAS ADSORPTION 347 CLASSIFICATION OF MOFS AS ADSORBENTS FOR GAS SEPARATION 348 RIGID MOFS AS ADSORBENTS FOR SELECTIVE GAS SEPARATION 348 FLEXIBLE MOFS AS ADSORBENTS FOR GAS SEPARATION 349 GAS PURIFICATION WITH MOFS 352 KINETIC SEPARATION 352 QUANTUM SIEVING EFFECT FOR H2/D2 SEPARATION 352 MEMBRANE-BASED GAS SEPARATION 353 REFERENCES 353 17 EMERGING ROLE OF ORGANOMETALLIC COMPOUNDS FOR DRUG DELIVERY, RENEWABLE ENERGY, AND WASTEWATER TREATMENT 357 SHOKOH PARHAM, HADI SARVARI, SEYED-SHIRIN PARHAM, AND HADI NUR 17.1 17.2 17.3 17.4 17.5 17.6 17.7 INTRODUCTION 357 ORGANOMETALLIC COMPOUNDS 359 ORGANOMETALLIC COMPOUNDS FOR DRUG DELIVERY 363 ORGANOMETALLIC COMPOUNDS FOR RENEWABLE ENERGY 364 ORGANOMETALLIC COMPOUNDS FOR WASTEWATER TREATMENT 365 CONCLUSION 366 OUTLOOK 366 ACKNOWLEDGMENT 367 REFERENCES 367 18 COMPUTATIONAL APPROACHES IN SOME IMPORTANT ORGANOMETALLIC CATALYSIS REACTION 375 PRATIBHA GUMASTA, NARESH C. DESHMUKH, ASEEL A, KADHEM, SNEHLATA KATHERIA, REENA RAWAT, AND BHAWANA JAIN 18.1 18.2 18.2.1 18.2.2 18.3 18.3.1 18.3.1.1 18.3.1.2 18.3.2 18.3.2.1 18.3.2.2 18.3.2.3 18.3.2.4 INTRODUCTION 375 COMPUTATIONAL METHOD 376 GEOMETRY CALCULATION 377 ENERGY 378 ORGANOMETALLIC CATALYSIS REACTIONS 379 PALLADIUM 379 C - H BOND ACTIVATION 380 COUPLING REACTIONS 382 NICKEL 386 COUPLING REACTIONS 386 C - O BOND ACTIVATION 388 CYCLIZATION REACTIONS 389 OLEFIN FUNCTIONALIZATION 389 CONTENTS XVII 18.3.3 RHODIUM 390 18.3.3.1 HYDROGENATION 390 18.3.3.2 OLEFIN FUNCTIONALIZATION 391 18.3.3.3 REACTIONS OF RH CARBENOIDS AND NITRENOIDS 391 18.3.4 IRIDIUM 394 18.3.4.1 HYDROGENATION 394 18.3.4.2 OTHER BOND ACTIVATIONS 396 18.4 CONCLUSION 396 REFERENCES 397 INDEX 409
adam_txt	CONTENTS PREFACE XIX ABOUT THE EDITORS XXI 1 ORGANOMETALLIC COMPOUNDS: THE FUNDAMENTAL ASPECTS 1 GEETHA B. MARKANDEYA AND SRINIVASA BUDAGUMPI 1.1 1.1.1 1.1.2 1.1.3 1.2 1.2.1 1.2.2 1.2.3 1.2.4 1.2.5 1.2.6 1.2.7 INTRODUCTION 1 ORGANOMETALLIC CHEMISTRY 1 ORGANOMETALLIC COMPOUNDS 1 STRUCTURE OF ORGANOMETALLIC COMPOUND 1 MILESTONES IN ORGANOMETALLIC COMPOUNDS 2 EQUATION (1.1): SYNTHESIS OF FIRST ORGANOMETALLIC COMPOUND 2 EQUATION (1.2): PREPARATION OF ZEISE ' S SALT 2 EQUATIONS (1.3)-(1.5): PREPARATION OF ORGANOCHLOROSILANE COMPOUND 3 EQUATION (1.6): SYNTHESIS OF FIRST METAL CARBONYL COMPOUND 3 EQUATION (1.7): SYNTHESIS OF FIRST BINARY METAL CARBONYL COMPLEX 3 EQUATION (1.8): BARBIER REACTION 3 EQUATION (1.9): SYNTHESIS OF ORGANIC COMPOUND USING A GRIGNARD REAGENT 4 1.2.8 1.2.9 1.2.10 1.2.11 1.2.12 1.2.13 1.2.14 1.2.15 1.2.16 1.3 1.4 1.5 1.5.1 1.5.1.1 1.5.1.2 EQUATIONS (1.10) AND (1.11): SYNTHESIS OF ALKYLLITHIUM COMPOUND 4 EQUATIONS (1.12) AND (1.13): SYNTHESIS OF ORGANOLITHIUM COMPOUND 4 EQUATION (1.14): HYDROFORMYLATION REACTION 4 EQUATION (1.15): SYNTHESIS OF ORGANOCHLOROSILANE COMPOUND 4 EQUATION (1.16): TRIMERIZATION OF ACETYLENE 5 EQUATION (1.17): SYNTHESIS OF FERROCENE 5 EQUATION (1.18): ASYMMETRIC CATALYSIS REACTION 5 EQUATION (1.19): PALLADIUM CATALYZED SUZUKI COUPLING REACTION 6 EQUATION (1.20): SYNTHESIS OF BUCKY FERROCENE 8 STABILITY OF ORGANOMETALLIC COMPOUNDS 9 PROPERTIES OF ORGANOMETALLIC COMPOUNDS 9 BASIC CONCEPTS IN ORGANOMETALLIC COMPOUNDS 9 18-ELECTRON RULE 9 STATEMENT OF 18 ELECTRON RULE 10 EXAMPLES 11 VI J CONTENTS 1.5.2 II -BACK BONDING OR BACK DONATION 12 1.5.3 HAPTICITY N 12 1.6 HAPTICITY OF LIGANDS 12 1.7 CHANGE IN HAPTICITY 13 1.8 HAPTICITY VERSES DENTICITY 14 1.9 COUNTING OF ELECTRONS AND FINDING OUT METAL-METAL BONDS 15 1.9.1 CALCULATING THE NUMBER OF METAL-METAL BONDS 15 1.9.2 WRITING THE PROBABLE STRUCTURE OF COMPOUND 15 1.9.3 HOW TO DRAW THE PROBABLE STRUCTURE OF NI(N ' -C,H,) (N3-C,H,) 15 1.9.4 HOW TO DRAW THE PROBABLE STRUCTURE OF (U-CO)-[N5-CPRH],(CO) 15 1.10 METALS OF ORGANOMETALLIC COMPOUNDS 16 1.10.1 ORGANOMETALLIC COMPOUNDS OF TRANSITION METALS 17 1.10.2 THE BONDING AND STRUCTURE IN DIFFERENT METAL COMPLEXES 17 1.10.2.1 ALKENE COMPLEXES 17 1.10.2.2 ALLYL COMPLEXES 17 1.10.2.3 CARBONYL COMPLEXES 17 1.10.2.4 METALLOCENES 18 1.10.2.5 DIHYDROGEN COMPLEXES 18 1.10.2.6 TRANSITION METAL CARBENE COMPLEX 18 1.11 IMPORTANCE OF ORGANOMETALLIC COMPOUNDS 19 1.11.1 TYPES OF ORGANOMETALLIC COMPOUNDS 19 1.11.2 USES OF ORGANOMETALLIC COMPOUNDS 20 1.12 CONCLUSIONS 20 REFERENCES 21 2 NOMENCLATURE OF ORGANOMETALLIC COMPOUNDS 25 RAJ K. RATHORE, SADHUCHORAN MALLICK, AND BHAVABHUTI PRASAD 2.1 INTRODUCTION 25 2.2 AIM OF THE NOMENCLATURE 26 2.3 TYPE OF NOMENCLATURE SYSTEM 26 2.3.1 BINARY NOMENCLATURE 26 2.3.2 SUBSTITUTIVE NOMENCLATURE 27 2.3.3 ADDITIVE NOMENCLATURE OR COORDINATION NOMENCLATURE 27 2.4 CONCEPTS AND CONVENTIONS 28 2.4.1 OXIDATION NUMBER 28 2.4.2 COORDINATION NUMBER 29 2.4.3 CHELATION 29 2.4.4 LIGANDS 29 2.4.5 SPECIFYING CONNECTIVITY - THE KAPPA ( K ) CONVENTION 30 2.4.6 BRIDGING LIGANDS - THE MU (U) CONVENTION 31 2.4.7 HAPTICITY - THE ETA (N) CONVENTION 33 2.5 REGULATIONS CONCERNING THE NOMENCLATURE OF TRANSITION ELEMENT ORGANOMETALLIC COMPOUNDS 36 REFERENCES 46 CONTENTS VII 3 CLASSIFICATION OF ORGANOMETALLIC COMPOUNDS 47 MUKESH K. TYAGI, GOKUL R. NISHAD, DAKESHWAR KUMAR VERMA, LEI GUO, AND ELYOR BERDIMURODOV 3.1 3.2 3.2.1 3.2.2 3.2.3 3.2.4 3.2.4.1 3.3 3.3.1 3.3.2 3.3.2.1 3.3.2.2 3.3.2.3 3.3.2.4 3.3.2.5 3.3.2.6 3.3.2.7 3.3.2.8 3.4 3.4.1 3.4.2 3.5 3.5.1 3.5.2 3.6 3.6.1 3.6.2 3.6.3 3.7 INTRODUCTION 47 CLASSIFICATION OF ORGANOMETALLIC COMPOUND 48 SIGMA-BONDED ORGANOMETALLIC COMPOUND 48 X-BONDED ORGANOMETALLIC COMPOUNDS 50 IONIC BONDED ORGANOMETALLIC COMPOUNDS 51 MULTICENTERED BONDED ORGANOMETALLIC COMPOUNDS 53 BASED ON HEPTACITY (N1 TO N8): 53 GRIGNARD REAGENT (G.R.) 54 PHYSICAL PROPERTIES 54 CHEMICAL PROPERTIES 54 ALKANES 54 ALKENES 56 ALKYNES 56 ETHERS 56 REACTION WITH CARBON DIOXIDE 56 INSERTION REACTION 56 SYNTHESIS OF SILICONES 56 NUCLEOPHILIC SUBSTITUTION 57 ORGANOZINC COMPOUNDS 59 PHYSICAL PROPERTIES 59 CHEMICAL PROPERTIES 59 ORGANOLITHIUM COMPOUNDS 61 REACTION RESEMBLING GRIGNARD REAGENTS 61 REACTIONS DIFFERENT FROM GRIGNARD REAGENTS 64 ORGANOSULFUR COMPOUNDS 65 PHYSICAL PROPERTIES 65 CHEMICAL PROPERTIES 65 PROPERTIES DIFFERENT FROM ALCOHOLS 67 CONCLUSION 69 REFERENCES 69 4 SYNTHESIS METHODS OF ORGANOMETALLIC COMPOUNDS 71 OMAR DAGDAG, RAJESH HALDHAR, SEONG-CHEOL KIM, ELYOR BERDIMURODOV, EKEMINI D. AKPAN, AND ENO E. EBENSO 4.1 4.2 4.2.1 INTRODUCTION 71 SYNTHESIS METHODS OF ORGANOMETALLIC COMPOUNDS 72 ELECTROCHEMICAL METHODS FOR THE SYNTHESIS OF ORGANOMETALLIC COMPOUNDS 72 4.2.1.1 4.2.1.2 SYNTHESIS OF CYANO CU(I) COMPLEXES IN THE ELECTROCHEMICAL CELL 72 SYNTHESIS OF AN ORGANORHENIUM CYCLOPENTADIENYL COMPLEX IN THE ELECTROCHEMICAL CELL 72 VIII CONTENTS 4.2.13 SYNTHESIS OF N-HETEROCYCLIC CARBENE COMPLEXES IN THE ELECTROCHEMICAL CELL 73 4.2.1.4 SYNTHESIS OF ORGANOCOPPER (I) T-COMPLEXES IN THE ELECTROCHEMICAL CELL 73 4.2.1.5 4.2.2 SYNTHESIS OF ORGANONICKEL O-COMPLEXES IN THE ELECTROCHEMICAL CELL 73 SYNTHESIS OF ORGANIC COMPOUNDS IN THE ELECTROCHEMICAL CELL BY METAL ORGANIC CATALYSTS 75 4.2.2.1 THE SYNTHESIS OF ORGANIC COMPOUNDS IN THE ELECTROCHEMICAL CELL BY THE NI-ORGANIC CATALYZE 75 4.2.2.2 THE SYNTHESIS OF ORGANIC COMPOUNDS IN THE ELECTROCHEMICAL CELL BY THE PD-ORGANIC CATALYSES 75 4.2.23 SYNTHESIS OF ORGANIC COMPOUNDS IN THE ELECTROCHEMICAL CELL BY THE SM-ORGANIC CATALYSES 78 4.23 4.23.1 4.23.2 4.2.33 4.23.4 4.23.5 4.23.6 43 SYNTHESIS OF ORGANOMETALLIC NUCLEOSIDES 79 A CATEGORY: MAIN COMPOUNDS 79 A1 SUBCATEGORY: MAIN COMPOUNDS 79 B CATEGORY: MAIN COMPOUNDS 80 C CATEGORY: MAIN COMPOUNDS 81 C1 SUBCATEGORY: MAIN COMPOUNDS 81 D CATEGORIES: MAIN COMPOUNDS 82 CONCLUSIONS 84 ACKNOWLEDGMENT 84 AUTHORS CONTRIBUTIONS 84 CONFLICTS OF INTEREST 84 REFERENCES 84 5 METAL CARBONYLS: SYNTHESIS, PROPERTIES, AND STRUCTURE 87 RAMESH RENGAN 5.1 5.2 5.2.1 5.2.1.1 5.2.1.2 5.2.2 INTRODUCTION 87 CLASSIFICATION OF METAL CARBONYLS 87 CLASSIFICATION BASED ON COORDINATED LIGANDS 87 HOMOLEPTIC CARBONYLS 88 HETEROLEPTIC CARBONYLS 88 CLASSIFICATION BASED ON NUMBER OF METALS AND THE CONSTITUTION OF CARBONYLS 88 5.2.2.1 5.2.2.2 53 53.1 53.2 533 5.3.4 5.4 5.4.1 5.4.2 MONONUCLEAR CARBONYL COMPLEXES 88 POLYNUCLEAR CARBONYL COMPLEXES 89 SYNTHESIS OF METAL CARBONYLS 90 DIRECT REACTION OF METAL WITH CARBON MONOXIDE 90 REDUCTIVE CARBONYLATION 90 PHOTOLYSIS AND THERMOLYSIS 91 ABSTRACTION OF CO FROM A REACTIVE ORGANIC CARBONYL COMPOUNDS 91 PROPERTIES OF METAL CARBONYLS 92 PHYSICAL PROPERTIES 92 CHEMICAL PROPERTIES 92 CONTENTS IX 5.4.2.1 5.4.2.2 5.4.2.3 5.4.2.4 5.4.2.5 5.4.2.6 5.4.2.7 5.5 5.5.1 5.5.2 5.6 5.6.1 5.7 5.8 LIGAND SUBSTITUTION REACTIONS 92 REACTION WITH SODIUM METAL 95 REACTION WITH SODIUM HYDROXIDE 95 REACTION WITH HALOGENS 95 REACTION WITH HYDROGEN 96 REACTION WITH NITRICOXIDE (NO) 96 DISPROPORTIONATION 96 STRUCTURE OF METAL CARBONYLS 97 STRUCTURES OF SOME MONONUCLEAR CARBONYL COMPLEXES 97 STRUCTURES OF SOME BI AND POLYNUCLEAR CARBONYL COMPLEXES 98 BONDING IN METAL CARBONYLS 99 FORMATION OF MIXED ATOMIC ORBITALS 99 SYNERGISTIC EFFECT 103 CONCLUSION 103 FURTHER READING 104 REFERENCES 104 6 METAL-CARBON MULTIPLE BONDED COMPOUNDS 107 RAKESH KUMAR SAHU, MUKESH KUMAR TYAGI, AND RAJESH HALDHAR 6.1 6.2 6.3 6.3.1 6.3.2 6.4 6.4.1 6.4.2 6.5 6.5.1 6.5.1.1 6.5.1.2 6.5.2 6.6 6.6.1 6.6.2 6.7 INTRODUCTION 107 NOMENCLATURE 109 CLASSIFICATIONS 111 METAL-ALKYLIDENE COMPLEXES 111 METAL-ALKYLIDYNE COMPLEXES 111 STRUCTURE 111 ALKYLIDENE (CARBENE) 111 CARBYNE (ALKYLIDYNE) 113 PREPARATION METHODS 114 METAL-ALKYLIDENE COMPLEXES 114 BY NUCLEOPHILIC CARBENE 115 BY ELECTROPHILIC ALKYLIDENES 116 METAL-ALKYLIDYNE COMPLEXES 118 IMPORTANT REACTIONS 119 REACTION OF ALKYLIDENE METATHESIS 119 IMPORTANT REACTION OF ALKYLIDYNE METATHESIS 124 APPLICATIONS 125 REFERENCES 127 7 METALLOCENE: SYNTHESIS, PROPERTIES, AND STRUCTURE 131 AMARPREET K. BHATIA, PRIYANKA SINGH, AND SHIPPI DEWANGAN 7.1 7.2 7.3 7.4 7.4.1 INTRODUCTION 131 STRUCTURE OF METALLOCENE 132 SYNTHESIS OF METALLOCENE 134 CHEMICAL PROPERTIES OF METALLOCENE 136 FERROCENE AND ITS DERIVATIVES 136 X CONTENTS 7.4.2 7.4.3 7.4.4 7.4.4.1 7.4.4.2 7.4.4.3 7.5 OTHER METALLOCENE SANDWICHES 138 MAIN-GROUP METALLOCENE 139 METAL-BIS-ARENE SANDWICH COMPLEXES 140 GENERAL VIEW 140 STRUCTURE 142 REACTIONS 142 CONCLUSION 144 REFERENCES 144 8 G-COMPLEXES, ^-COMPLEXES, AND N"-CYYR, CARBOCYCLIC POLYENES-BASED ORGANOMETALLIC COMPOUNDS 147 SHIPPI DEWANGAN, JEENAT ASLAM, AND AMARPREET K. BHATIA 8.1 8.2 8.2.1 8.2.1.1 8.2.1.2 8.2.1.3 8.2.1.4 8.2.2 8.2.2.1 8.2.2.2 8.2.2.3 8.2.2.4 8.3 8.3.1 8.3.1.1 8.3.1.2 8.3.1.3 8.3.2 8.3.3 8.3.4 8.3.4.1 8.3.4.2 8.3.4.3 8.4 INTRODUCTION 147 O-BOND CONTAINING ORGANOMETALLIC COMPOUNDS 148 METAL CARBONYL 148 GENERAL OVERVIEW 148 SYNTHESES OF METAL CARBONYLS 148 STRUCTURE OF METAL CARBONYLS 149 REACTIONS OF METAL CARBONYLS 150 METAL-ALKYL, -VINYL, AND -HYDRIDE COMPLEXES 150 METAL ALKYLS 150 METAL VINYLS 152 METAL HYDRIDES 152 METAL-CARBENE COMPLEXES 154 X-BOND CONTAINING ORGANOMETALLIC COMPOUNDS 156 METAL-OLEFIN COMPLEXES 156 GENERAL OVERVIEW 156 SYNTHESES OF METAL-OLEFIN COMPLEXES 157 REACTIONS OF METAL-OLEFIN COMPLEXES 157 METAL-DIENE COMPLEXES 157 METAL-ALKYNE COMPLEXES 158 K-ALLYL COMPLEXES 158 STRUCTURE OF A-ALLYL COMPLEXES 158 SYNTHESES OF A ALLYL COMPLEXES 159 REACTIONS OF A ALLYL COMPLEXES 160 N " -CAR, CARBOCYCLIC POLYENES CONTAINING ORGANOMETALLIC COMPOUNDS 161 8.4.1 8.4.2 8.4.3 8.4.3.1 8.4.3.2 8.4.3.3 8.4.3.4 8.4.3.5 CYCLOPROPENYLS, N3-C3R, 161 CYCLOBUTADIENES, N4-C4R4 161 CYCLOPENTADIENYLS, N5 - C 5 R, 162 GENERAL OVERVIEW 162 STRUCTURE OF METALLOCENE 162 SYNTHESES OF METALLOCENE 163 CHEMICAL PROPERTIES OF METALLOCENE 164 APPLICATIONS OF METALLOCENE 165 CONTENTS XI 8.5 CONCLUSION 166 REFERENCES 166 9 ORGANOMETALLIC COMPLEXES OF THE LANTHANIDES AND ACTINIDES 169 SHIPPI DEWANGAN, AMARPREET K. BHATIA, AND PRIYANKA SINGH 9.1 9.2 9.2.1 9.2.2 9.2.3 9.2.4 9.2.5 9.3 9.3.1 9.3.1.1 9.3.1.2 9.4 9.4.1 9.4.2 9.4.3 9.4.3.1 9.5 9.5.1 9.5.2 9.5.3 9.5.4 9.6 9.6.1 9.6.2 9.6.3 9.6.4 9.6.5 9.6.6 9.6.7 9.6.8 9.6.9 9.6.10 9.6.11 9.6.12 9.6.13 9.7 9.7.1 9.7.1.1 9.7.1.2 INTRODUCTION 169 METHODS OF PREPARATION 169 SALT ELIMINATION 171 METAL VAPOR SYNTHESIS METHOD 173 METATHESIS REACTION METHOD 174 O-BOND METATHESIS 174 ACID-BASE METHOD 175 ORGANOMETALLIC COMPOUNDS OF LANTHANIDES 175 TYPES 175 O-BONDED COMPLEXES 176 N-BONDED ORGANOMETALLIC COMPOUNDS 177 ORGANOMETALLIC COMPOUNDS OF ACTINIDES 180 TYPES 180 O-BONDED COMPLEXES 180 K-BONDED COMPLEXES 182 CYCLOPENTADIENYL DERIVATIVES 182 STABILITY 185 MAINTAINING ANHYDROUS AND ANAEROBIC CONDITIONS 185 AVOIDING ELIMINATION REACTIONS 186 BLOCKING THE COORDINATION SITES 186 DONOR-FUNCTIONALIZED CHELATING PENDANT DONOR LIGANDS 186 PROPERTIES 186 THERMODYNAMIC AND KINETIC CONSIDERATIONS 187 SOLVATION 187 AGGREGATION 187 DONOR-ACCEPTOR INTERACTIONS 187 SALT OCCLUSION OR ATE COMPLEXATION 188 NEUTRAL A-DONOR LIGATION 188 AGOSTIC INTERACTIONS 189 COMPLEX AGGLOMERATION 189 LIGAND EXCHANGE AND REDISTRIBUTION REACTIONS 189 INSERTION REACTIONS 190 ELIMINATION REACTIONS 190 REDOX CHEMISTRY 191 REACTION SEQUENCES - CATALYTIC CYCLES 192 APPLICATIONS OF ORGANOLANTHANOIDS AND ORGANOACTINOIDS 193 CATALYTIC APPLICATIONS 193 CATALYSIS OF POLYMERIZATION 193 CATALYSTS AND REAGENTS FOR REDUCTION PROCESSES 193 XII CONTENTS 9.7.1.3 9.7.2 9.8 CATALYSTS AND REAGENTS FOR OXIDATION PROCESSES 195 MISCELLANEOUS APPLICATIONS 197 CONCLUSION 197 FURTHER READING 197 10 BIOORGANOMETALLIC CHEMISTRY 201 PRIYANKA TIWARI 10.1 10.2 10.2.1 10.2.2 10.2.3 10.2.4 10.2.5 10.3 10.3.1 10.3.2 10.3.3 10.3.3.1 10.3.3.2 10.3.3.3 10.3.3.4 10.4 10.4.1 10.4.2 10.5 10.6 10.7 INTRODUCTION 201 COBALAMIN: VITAMIN B 12 -COENZYME 202 OCCURRENCE AND FUNCTION 202 STRUCTURE 202 B^-DEPENDENT ENZYMES 203 OCCURRENCE 203 FUNCTION 203 METALLOPROTEINS 204 OCCURRENCE 204 FUNCTIONS 204 ELECTRON TRANSFERASES 204 FLAVODOXINS 205 BLUE COPPER PROTEINS 205 IRON-SULFUR PROTEINS 205 CYTOCHROMES 207 OXIDOREDUCTASE 207 IRON-PORPHYRIN COMPLEXES 208 MONOOXYGENASES 208 NITROGENASES-CATALYZING NITROGEN FIXATION 209 NICKEL ENZYMES: CODH 211 CONCLUSION 212 REFERENCES 213 11 IMPORTANT REACTIONS OF ORGANOMETALLIC COMPOUNDS 215 SANDEEP K. VAISHNAV AND PRIYANKA SINGH 11.1 11.2 11.2.1 11.2.1.1 11.2.1.2 11.2.1.3 11.2.2 11.2.2.1 11.2.2.2 11.2.2.3 11.2.2.4 11.3 11.3.1.1 INTRODUCTION 215 REACTIONS INVOLVING GAIN OR LOSS OF LIGANDS 215 ASSOCIATIVE AND DISSOCIATIVE SUBSTITUTION 216 DISSOCIATION OF CARBONYLS 216 DISSOCIATION OF NITROSYLS 217 DISSOCIATION OF PHOSPHINE 217 OXIDATIVE ADDITION AND C - H BOND ACTIVATION 218 MECHANISM 219 BINUCLEAR OXIDATIVE ADDITION 221 CYCLOMETALLATIONS 222 NUCLEOPHILIC DISPLACEMENT 222 REDUCTIVE ELIMINATION AND PD-CATALYZED CROSS COUPLING 223 BINUCLEAR REDUCTIVE ELIMINATION 224 CONTENTS \| XIII 11.4 11.4.1 11.4.1.1 11.4.1.2 11.4.1.3 11.4.2 11.4.2.1 11.4.3 11.4.3.1 11.5 REACTIONS INVOLVING MODIFICATION OF LIGANDS 225 INSERTION 225 CARBONYL INSERTION (ALKYL MIGRATION) 226 OLEFIN INSERTION 230 OTHER INSERTION REACTION 232 HYDRIDE ELIMINATION 233 AVOIDANCE OF P-HYDROGEN ELIMINATION 235 ABSTRACTION 236 NUCLEOPHILIC ABSTRACTION 237 CONCLUSION 240 REFERENCES 240 12 CHARACTERIZATION TECHNIQUES OF ORGANOMETALLIC COMPOUNDS 245 JAVAD B. M. PARAMBATH AND AHMED A. MOHAMED 12.1 12.2 12.2.1 12.2.2 12.2.3 12.2.4 12.2.5 12.2.6 12.3 12.3.1 12.3.2 12.3.3 12.3.4 12.3.5 12.4 INTRODUCTION 245 CONVENTIONAL METHODS 246 NUCLEAR MAGNETIC RESONANCE (NMR) SPECTROSCOPY 246 INFRARED AND RAMAN SPECTROSCOPY 248 UV-VISIBLE SPECTROSCOPY 251 X-RAY CRYSTALLOGRAPHY 252 MASS SPECTROSCOPY 253 ELEMENTAL ANALYSIS 255 UNCONVENTIONAL METHODS 256 NEUTRON ACTIVATION ANALYSIS 256 X-RAY PHOTOELECTRON SPECTROSCOPY 256 ELECTRON DIFFRACTION CRYSTALLOGRAPHY AND MICROELECTRON DIFFRACTION 258 MOSSBAUER SPECTROSCOPY 259 ELECTROANALYTICAL METHODS 259 CONCLUSION 260 REFERENCES 261 13 ORGANOMETALLIC REAGENTS 267 RANJAN K. BOSAK AND ASHISH K. ASOTKAR 13.1 13.1.1 13.1.2 13.1.2.1 13.1.2.2 13.1.2.3 13.1.2.4 13.1.2.5 13.1.2.6 13.2 13.2.1 ORGANOBORON REAGENTS 267 INTRODUCTION 267 MAIN ORGANOBORON REAGENTS AND THEIR REACTIONS 267 HYDROBORATION AND SUBSEQUENT REACTIONS 267 SUZUKI COUPLING 273 ACYLTRIFLUOROBORATES 277 ALLYLATION 278 CHAN-LAM COUPLING 279 PETASIS REACTION 279 ORGANOCOPPER REAGENTS 280 INTRODUCTION 280 XIV CONTENTS 13.2.2 TYPES OF ORGANOCUPRATES REAGENTS 281 13.2.2.1 GILMAN REAGENT (R 2 CUM) 281 13.2.2.2 HIGHER ORDER ORGANOCUPRATES (RCUCNLI,) 282 13.2.2.3 GRIGNARD COPPER(I) REAGENTS (RMGX-CUY) 282 13.2.3 REACTIONS OF ORGANOCUPRATES 283 13.2.3.1 INCREASING CHAIN LENGTH OF ALKYL HALIDES 283 13.2.3.2 ALKYLATION OF THE ALLYLIC HALIDES 284 13.2.3.3 REACTION WITH VINYL HALIDES 284 13.2.3.4 ALKYLATION OF ACYL HALIDES 284 13.2.3.5 EPOXIDE OPENING 285 13.2.3.6 CONJUGATE ADDITIONS 285 13.2.3.7 CONJUGATE ADDITION IN PRESENCE OF LEWIS ACID AND ELECTROPHILES 286 13.2.3.8 O-TRAPPING AND C-TRAPPING REACTION 287 13.2.3.9 SYNTHESIS OF ALLENES 287 13.3 ORGANOPALLADIUM REAGENTS 288 13.3.1 INTRODUCTION 288 13.3.2 TYPES OF C-C CROSS-COUPLING REACTION CATALYZED BY PALLADIUM METAL 289 13.3.2.1 HECK REACTION 289 13.3.2.2 NEGISHI COUPLING 290 13.3.2.3 SUZUKI COUPLING 291 13.3.2.4 STILLE COUPLING 291 13.3.2.5 KUMADA COUPLING 292 13.3.2.6 HIYAMA COUPLING 293 13.3.2.7 SONOGASHIRA COUPLING 293 13.3.2.8 BUTCHWALD-HARTWIG COUPLING 294 13.3.2.9 CYANATION REACTION 294 13.3.2.10 CARBONYLATION REACTION 295 13.4 GRIGNARD REAGENTS 296 13.4.1 INTRODUCTION 296 13.4.2 SYNTHESIS 296 13.4.3 REACTIVITY 297 REFERENCES 298 14 HOMOGENEOUS AND HETEROGENEOUS CATALYSIS BY ORGANOMETALLIC COMPLEXES 301 RATNAKAR D. SHUKLA, BHAWNA JAIN, KULESHWAR PATEL, PRIYANKA SINGH, DAKESHWAR KUMAR VERMA, REEMA SAHU, AND RAGHVENDRA K. MISHRA 14.1 INTRODUCTION 301 14.2 ORGANOMETALLIC COMPOUNDS AND HOMOGENEOUS CATALYSIS 302 14.3 CATALYTIC ELEMENTARY REACTIONS 303 14.3.1 ISOMERIZATION 304 14.3.2 ALKENE ISOMERIZATION 305 14.3.3 ALKYNE ISOMERIZATION 305 14.3.4 DIENE ISOMERIZATION 306 CONTENTS XV 14.4 14.5 14.6 14.7 14.8 14.9 14.9.1 14.9.1.1 14.9.2 14.9.3 14.10 HYDROGENATION 306 CARBON-CARBON BOND FORMATION 307 METATHESIS 308 OXIDATION 309 REACTIONS WITH CARBON MONOXIDE 311 HETEROGENOUS CATALYSIS 311 ZIEGLER-NATTA CATALYST 313 STEREOREGULARITY 313 WATER GAS REACTION 315 ZEOLITES 316 CONCLUSION 317 REFERENCES 318 15 CLUSTER COMPOUNDS: BORANES, HETEROBORANES, AND METALLABORANES 321 ELYOR BERDIMURODOV, KHASON BERDIMURODOV, ABDUVALI KHOLIKOV, KHAMDOM AKBAROV, OMAR DAGDAG, BRAHIM EL IBRAHIMI, AND DAKESHWAR KUMAR VERMA 15.1 15.1.1 INTRODUCTION 321 FUNDAMENTALS OF CLUSTER COMPOUNDS: BORANES, HETEROBORANES, AND METALLABORANES 321 15.2 15.2.1 MAIN PART 324 CLUSTER COMPOUNDS OF BORANES AND HETEROBORANES: SYNTHESIS, REACTIONS, AND APPLICATIONS 324 15.2.1.1 15.2.1.2 15.2.1.3 15.2.1.4 15.2.2 BASICS 324 SYNTHESIS 324 REACTIONS 324 APPLICATIONS 327 CLUSTER COMPOUNDS OF METALLABORANES: SYNTHESIS, REACTIONS, AND APPLICATIONS 327 15.2.2.1 15.2.2.2 15.2.2.3 15.2.2.4 15.3 BASICS 327 SYNTHESIS 327 REACTIONS 330 APPLICATIONS 330 CONCLUSION 332 REFERENCES 332 16 APPLICATIONS OF ORGANOMETALLIC COMPOUNDS FOR CARBON DIOXIDE FIXATION, REDUCTION, GAS ADSORPTION, AND GAS PURIFICATION 335 ZHOVETA YHOBU, MONICA VIJAYAKUMOR, NAGARAJU D. HANUMANTHARAYUDU, AND SRINIVASA BUDOGUMPI 16.1 16.2 16.2.1 16.2.2 ORGANOMETALLIC COMPOUNDS FOR FIXATION OF CO 2 335 ORGANOMETALLIC COMPOUNDS IN REDUCTION OF CO 2 336 NICKEL COMPLEXES 338 IRON AND MANGANESE COMPLEXES 339 XVI CONTENTS 16.2.3 16.2.4 16.2.5 16.2.6 16.3 16.3.1 16.3.2 16.3.2.1 16.3.2.2 16.4 16.4.1 16.4.2 16.4.3 COPPER AND COBALT COMPLEXES 341 PALLADIUM COMPLEXES 342 RUTHENIUM, RHENIUM, AND RHODIUM COMPLEXES 343 N-HETEROCYCLIC CARBENES 344 ORGANOMETALLIC COMPOUNDS IN GAS ADSORPTION AND PURIFICATION 346 METAL ORGANIC FRAMEWORKS (MOFS) FOR GAS ADSORPTION 347 CLASSIFICATION OF MOFS AS ADSORBENTS FOR GAS SEPARATION 348 RIGID MOFS AS ADSORBENTS FOR SELECTIVE GAS SEPARATION 348 FLEXIBLE MOFS AS ADSORBENTS FOR GAS SEPARATION 349 GAS PURIFICATION WITH MOFS 352 KINETIC SEPARATION 352 QUANTUM SIEVING EFFECT FOR H2/D2 SEPARATION 352 MEMBRANE-BASED GAS SEPARATION 353 REFERENCES 353 17 EMERGING ROLE OF ORGANOMETALLIC COMPOUNDS FOR DRUG DELIVERY, RENEWABLE ENERGY, AND WASTEWATER TREATMENT 357 SHOKOH PARHAM, HADI SARVARI, SEYED-SHIRIN PARHAM, AND HADI NUR 17.1 17.2 17.3 17.4 17.5 17.6 17.7 INTRODUCTION 357 ORGANOMETALLIC COMPOUNDS 359 ORGANOMETALLIC COMPOUNDS FOR DRUG DELIVERY 363 ORGANOMETALLIC COMPOUNDS FOR RENEWABLE ENERGY 364 ORGANOMETALLIC COMPOUNDS FOR WASTEWATER TREATMENT 365 CONCLUSION 366 OUTLOOK 366 ACKNOWLEDGMENT 367 REFERENCES 367 18 COMPUTATIONAL APPROACHES IN SOME IMPORTANT ORGANOMETALLIC CATALYSIS REACTION 375 PRATIBHA GUMASTA, NARESH C. DESHMUKH, ASEEL A, KADHEM, SNEHLATA KATHERIA, REENA RAWAT, AND BHAWANA JAIN 18.1 18.2 18.2.1 18.2.2 18.3 18.3.1 18.3.1.1 18.3.1.2 18.3.2 18.3.2.1 18.3.2.2 18.3.2.3 18.3.2.4 INTRODUCTION 375 COMPUTATIONAL METHOD 376 GEOMETRY CALCULATION 377 ENERGY 378 ORGANOMETALLIC CATALYSIS REACTIONS 379 PALLADIUM 379 C - H BOND ACTIVATION 380 COUPLING REACTIONS 382 NICKEL 386 COUPLING REACTIONS 386 C - O BOND ACTIVATION 388 CYCLIZATION REACTIONS 389 OLEFIN FUNCTIONALIZATION 389 CONTENTS XVII 18.3.3 RHODIUM 390 18.3.3.1 HYDROGENATION 390 18.3.3.2 OLEFIN FUNCTIONALIZATION 391 18.3.3.3 REACTIONS OF RH CARBENOIDS AND NITRENOIDS 391 18.3.4 IRIDIUM 394 18.3.4.1 HYDROGENATION 394 18.3.4.2 OTHER BOND ACTIVATIONS 396 18.4 CONCLUSION 396 REFERENCES 397 INDEX 409
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spelling	Organometallic compounds synthesis, reactions, and applications edited by Dakeshwar Kumar Verma, Jeenat Aslam Weinheim Wiley-VCH [2023] © 2023 xxi, 420 Seiten Illustrationen txt rdacontent n rdamedia nc rdacarrier Metallorganische Chemie (DE-588)4602390-2 gnd rswk-swf Metallorganische Verbindungen (DE-588)4038906-6 gnd rswk-swf CH40: Katalyse CH72: Koordinationschemie CH86: Organometallchemie Catalysis Chemie Chemistry Coordination Chemistry Katalyse Koordinationschemie Metallorganische Verbindungen Organometallchemie Organometallic Chemistry (DE-588)4143413-4 Aufsatzsammlung gnd-content Metallorganische Verbindungen (DE-588)4038906-6 s DE-604 Metallorganische Chemie (DE-588)4602390-2 s Verma, Dakeshwar Kumar (DE-588)1289294488 edt Aslam, Jeenat (DE-588)1280155973 edt Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, EPUB 978-3-527-84093-9 Erscheint auch als Online-Ausgabe, PDF 978-3-527-84092-2 Erscheint auch als Online-Ausgabe, oBook 978-3-527-84094-6 X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-35178-7/ DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034081735&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Organometallic compounds synthesis, reactions, and applications Metallorganische Chemie (DE-588)4602390-2 gnd Metallorganische Verbindungen (DE-588)4038906-6 gnd
subject_GND	(DE-588)4602390-2 (DE-588)4038906-6 (DE-588)4143413-4
title	Organometallic compounds synthesis, reactions, and applications
title_auth	Organometallic compounds synthesis, reactions, and applications
title_exact_search	Organometallic compounds synthesis, reactions, and applications
title_exact_search_txtP	Organometallic compounds synthesis, reactions, and applications
title_full	Organometallic compounds synthesis, reactions, and applications edited by Dakeshwar Kumar Verma, Jeenat Aslam
title_fullStr	Organometallic compounds synthesis, reactions, and applications edited by Dakeshwar Kumar Verma, Jeenat Aslam
title_full_unstemmed	Organometallic compounds synthesis, reactions, and applications edited by Dakeshwar Kumar Verma, Jeenat Aslam
title_short	Organometallic compounds
title_sort	organometallic compounds synthesis reactions and applications
title_sub	synthesis, reactions, and applications
topic	Metallorganische Chemie (DE-588)4602390-2 gnd Metallorganische Verbindungen (DE-588)4038906-6 gnd
topic_facet	Metallorganische Chemie Metallorganische Verbindungen Aufsatzsammlung
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-35178-7/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034081735&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT vermadakeshwarkumar organometalliccompoundssynthesisreactionsandapplications AT aslamjeenat organometalliccompoundssynthesisreactionsandapplications AT wileyvch organometalliccompoundssynthesisreactionsandapplications

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