Verfügbarkeit: Computational methods in organometallic catalysis

Computational methods in organometallic catalysis: from elementary reaction to mechanisms

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Bibliographische Detailangaben
1. Verfasser:	Lan, Yu (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH [2021]
Schlagworte:	Katalyse Metallorganische Verbindungen Metallorganische Chemie Computational chemistry Catalysis Chemie Chemistry Computational Chemistry & Molecular Modeling Computational Chemistry u. Molecular Modeling Organic Chemistry Organische Chemie CH40: Katalyse CH80: Organische Chemie CHD0: Computational Chemistry u. Molecular Modeling
Online-Zugang:	Kurzbeschreibung Inhaltsverzeichnis
Beschreibung:	xviii, 648 Seiten Illustrationen
ISBN:	9783527346011

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Datensatz im Suchindex

_version_	1804182173921574912
adam_text	CONTENTS FOREWORD XV PREFACE XVII PART I THEORETICAL VIEW OF ORGANOMETALLIC CATALYSIS 1 1 INTRODUCTION OF COMPUTATIONAL ORGANOMETALLIC CHEMISTRY 3 1.1 OVERVIEW OF ORGANOMETALLIC CHEMISTRY 3 1.1.1 GENERAL VIEW OF ORGANOMETALLIC CHEMISTRY 3 1.1.2 A BRIEF HISTORY OF ORGANOMETALLIC CHEMISTRY 6 1.2 USING COMPUTATIONAL TOOL TO STUDY THE ORGANOMETALLIC CHEMISTRY MECHANISM 8 1.2.1 MECHANISM OF TRANSITION METAL CATALYSIS 8 1.2.2 MECHANISTIC STUDY OF TRANSITION METAL CATALYSIS BY THEORETICAL METHODS 10 REFERENCES 13 2 COMPUTATIONAL METHODS IN ORGANOMETALLIC CHEMISTRY 19 2.1 INTRODUCTION OF COMPUTATIONAL METHODS 19 2.1.1 THE HISTORY OF QUANTUM CHEMISTRY COMPUTATIONAL METHODS 19 2.1.2 POST-HF METHODS 21 2.2 DENSITY FUNCTIONAL THEORY (DFT) METHODS 23 2.2.1 OVERVIEW OF DENSITY FUNCTIONAL THEORY METHODS 23 2.2.2 JACOB S LADDER OF DENSITY FUNCTIONALS 25 2.2.3 THE SECOND RUNG IN JACOB S LADDER OF DENSITY FUNCTIONALS 25 2.2.4 THE THIRD RUNG IN JACOB S LADDER OF DENSITY FUNCTIONALS 26 2.2.5 THE FOURTH RUNG IN JACOB S LADDER OF DENSITY FUNCTIONALS 26 2.2.6 THE FIFTH RUNG IN JACOB S LADDER OF DENSITY FUNCTIONALS 26 2.2.7 CORRECTION OF DISPERSION INTERACTION IN ORGANIC SYSTEMS 27 2.3 BASIS SET AND ITS APPLICATION IN MECHANISM STUDIES 29 2.3.1 GENERAL VIEW OF BASIS SET 29 2.3.2 POPLE S BASIS SETS 30 2.3.3 POLARIZATION FUNCTIONS 31 VI CONTENTS 2.3.4 DIFFUSE FUNCTIONS 31 2.3.5 CORRELATION-CONSISTENT BASIS SETS 31 2.3.6 PSEUDO POTENTIAL BASIS SETS 32 2.4 SOLVENT EFFECT 33 2.5 HOW TO CHOOSE A METHOD IN COMPUTATIONAL ORGANOMETALLIC CHEMISTRY 34 2.5.1 WHY DFT METHOD IS CHOSEN 34 2.5.2 HOW TO CHOOSE A DENSITY FUNCTIONAL 34 2.5.3 HOW TO CHOOSE A BASIS SET 36 2.6 REVEALING A MECHANISM FOR AN ORGANOMETALLIC REACTION BY THEORETICAL CALCULATIONS 37 2.7 OVERVIEW OF POPULAR COMPUTATIONAL PROGRAMS 37 2.8 THE LIMITATION OF CURRENT COMPUTATIONAL METHODS 40 2.8.1 THE ACCURACY OF DFT METHODS 40 2.8.2 EXACT SOLVATION EFFECT 41 2.8.3 EVALUATION OF ENTROPY EFFECT 41 2.8.4 THE COMPUTATION OF EXCITED STATE AND HIGH SPIN STATE 41 2.8.5 SPECULATION ON THE REACTION MECHANISM 41 REFERENCES 42 3 ELEMENTARY REACTIONS IN ORGANOMETALLIC CHEMISTRY 51 3.1 GENERAL VIEW OF ELEMENTARY REACTIONS IN ORGANOMETALLIC CHEMISTRY 51 3.2 COORDINATION AND DISSOCIATION 52 3.2.1 COORDINATION BOND AND COORDINATION 52 3.2.2 DISSOCIATION 55 3.2.3 LIGAND EXCHANGE 57 3.3 OXIDATIVE ADDITION 59 3.3.1 CONCERTED OXIDATIVE ADDITION 60 3.3.2 SUBSTITUTION-TYPE OXIDATIVE ADDITION 62 3.3.3 RADICAL-TYPE ADDITION 67 3.3.4 OXIDATIVE CYCLIZATION 68 3.4 REDUCTIVE ELIMINATION 70 3.4.1 CONCERTED REDUCTIVE ELIMINATION 71 3.4.2 SUBSTITUTION-TYPE REDUCTIVE ELIMINATION 73 3.4.3 RADICAL-SUBSTITUTION-TYPE REDUCTIVE ELIMINATION 74 3.4.4 BIMETALLIC REDUCTIVE ELIMINATION 75 3.4.5 ELIMINATIVE REDUCTION 78 3.5 INSERTION 78 3.5.1 1,2-INSERTION 79 3.5.2 1,1-INSERTION 80 3.5.3 CONJUGATIVE INSERTION 83 3.5.4 OUTER-SPHERE INSERTION 84 3.6 ELIMINATION 86 3.6.1 P-ELIMINATION 86 3.6.2 A-ELIMINATION 90 CONTENTS VII 3.7 3.7.1 3.7.2 3.7.3 3.8 3.8.1 3.8.2 3.8.3 TRANSMETALLATION 92 CONCERTED RING-TYPE TRANSMETALLATION 92 TRANSMETALLATION THROUGH ELECTROPHILIC SUBSTITUTION 98 STEPWISE TRANSMETALLATION 99 METATHESIS 100 O-BOND METATHESIS 100 OLEFIN METATHESIS 102 ALKYNE METATHESIS 106 REFERENCES 106 PART II ON THE MECHANISM OF TRANSITION-METAL-ASSISTED REACTIONS 125 4 4.1 4.1.1 4.1.2 4.2 4.2.1 4.2.2 4.2.3 4.2.4 4.3 4.3.1 4.3.2 4.4 4.5 4.5.1 4.5.2 4.6 4.6.1 4.6.2 4.6.3 4.6.4 4.7 4.7.1 4.7.2 4.7.3 THEORETICAL STUDY OF NI-CATALYSIS 127 NI-MEDIATED C - H BOND ACTIVATION 128 NI-MEDIATED ARENE C - H ACTIVATION 128 NI-MEDIATED ALDEHYDE C -H ACTIVATION 132 NI-MEDIATED C - HALOGEN BOND CLEAVAGE 133 CONCERTED OXIDATIVE ADDITION OF C - HALOGEN BOND 133 RADICAL-TYPE SUBSTITUTION OF C - HALOGEN BOND 135 C - HALOGEN BOND CLEAVAGE BY 0-HALIDE ELIMINATION 137 NUCLEOPHILIC SUBSTITUTION OF C - HALOGEN BOND 139 NI-MEDIATED C - 0 BOND ACTIVATION 140 ETHER C - 0 BOND ACTIVATION 140 ESTER C - 0 BOND ACTIVATION 142 NI-MEDIATED C - N BOND CLEAVAGE 148 NI-MEDIATED C - C BOND CLEAVAGE 151 C - C SINGLE BOND ACTIVATION 151 C=C DOUBLE BOND ACTIVATION 152 NI-MEDIATED UNSATURATED BOND ACTIVATION 153 OXIDATIVE CYCLIZATION WITH UNSATURATED BONDS 153 ELECTROPHILIC ADDITION OF UNSATURATED BONDS 156 UNSATURATED COMPOUNDS INSERTION 157 NUCLEOPHILIC ADDITION OF UNSATURATED BONDS 159 NI-MEDIATED CYCLIZATION 160 NI-MEDIATED CYCLOADDITIONS 161 NI-MEDIATED RING SUBSTITUTIONS 163 NI-MEDIATED RING EXTENSIONS 166 REFERENCES 168 5 5.1 5.1.1 5.1.2 THEORETICAL STUDY OF PD-CATALYSIS 181 PD CATALYZED CROSS-COUPLING REACTIONS 182 SUZUKI-MIYAURA COUPLING 183 NEGISHI COUPLING 186 VIII CONTENTS 5.1.3 STILLE COUPLING 189 5.1.4 HIYAMA COUPLING 190 5.1.5 HECK-MIZOROKI REACTION 192 5.2 PD-MEDIATED C - HETERO BOND FORMATION 196 5.2.1 C - B BOND FORMATION 196 5.2.2 C - S BOND FORMATION 197 5.2.3 C - I BOND FORMATION 200 5.2.4 C - SI BOND FORMATION 201 5.3 PD-MEDIATED C -H ACTIVATION REACTIONS 204 5.3.1 CHELATION-FREE C(SP 3 ) - H ACTIVATION 206 5.3.2 CHELATION-FREE C(SP 2 ) - H ACTIVATION 208 5.3.3 COORDINATIVE CHELATION-ASSISTED ORTHO C(ARYL) - H ACTIVATION 210 5.3.4 COVALENT CHELATION-ASSISTED ORTHO C(ARYL) - H ACTIVATION 212 5.3.5 CHELATION-ASSISTED META C(ARYL) -H ACTIVATION 214 5.3.6 COORDINATIVE CHELATION-ASSISTED C(SP 3 ) - H ACTIVATION 216 5.3.7 COVALENT CHELATION-ASSISTED C(SP 3 ) - H ACTIVATION 216 5.3.8 C - H BOND ACTIVATION THROUGH ELECTROPHILIC DEPROTONATION 219 5.3.9 C -H BOND ACTIVATION THROUGH O-COMPLEX-ASSISTED METATHESIS 221 5.3.10 C - H BOND ACTIVATION THROUGH OXIDATIVE ADDITION 223 5.4 PD-MEDIATED ACTIVATION OF UNSATURATED MOLECULES 224 5.4.1 ALKENE ACTIVATION 225 5.4.2 ALKYNE ACTIVATION 225 5.4.3 ENYNE ACTIVATION 226 5.4.4 IMINE ACTIVATION 229 5.4.5 CO ACTIVATION 229 5.4.6 ISOCYANIDE ACTIVATION 231 5.4.7 CARBENE ACTIVATION 231 5.5 ALLYLIC PD COMPLEX 234 5.5.1 FORMATION FROM ALLYLIC OXIDATIVE ADDITION 235 5.5.2 FORMATION FROM ALLYLIC NUCLEOPHILIC SUBSTITUTION 236 5.5.3 FORMATION FROM THE NUCLEOPHILIC ATTACK ONTO ALLENE 237 5.5.4 FORMATION FROM ALLYLIC C - H ACTIVATION 237 5.5.5 FORMATION FROM ALLENE INSERTION 238 REFERENCES 239 6 THEORETICAL STUDY OF PT-CATALYSIS 257 6.1 MECHANISM OF PT-CATALYZED C -H ACTIVATION 258 6.1.1 OXIDATIVE ADDITION OF C - H BOND 259 6.1.2 ELECTROPHILIC DEHYDROGENATION 259 6.1.3 CARBENE INSERTION INTO C - H BONDS 261 6.2 MECHANISM OF PT-CATALYZED ALKYNE ACTIVATION 264 6.2.1 NUCLEOPHILIC ADDITIONS 264 6.2.2 CYCLOPROPANATION 266 6.2.3 OXIDATIVE CYCLOADDITION 268 6.3 MECHANISM OF PT-CATALYZED ALKENE ACTIVATION 270 CONTENTS IX 6.3.1 HYDROAMINATION OF ALKENES 270 63.2 HYDROFORMYLATION OF ALKENES 272 6.3.3 ISOMERIZATION OF CYCLOPROPENES 273 REFERENCES 274 7 THEORETICAL STUDY OF CO-CATALYSIS 289 7.1 CO-MEDIATED C - H BOND ACTIVATION 289 7.1.1 HYDROARYLATION OF ALKENES 291 7.1.2 HYDROARYLATION OF ALLENES 293 7.1.3 HYDROARYLATION OF ALKYNES 294 7.1.4 HYDROARYLATION OF NITRENOID 296 7.1.5 OXIDATIVE C - H ALKOXYLATION 297 7.2 CO-MEDIATED CYCLOADDITIONS 297 7.2.1 CO-MEDIATED PAUSON-KHAND REACTION 298 7.2.2 CO-CATALYZED [4+2] CYCLIZATIONS 299 7.2.3 CO-CATALYZED [2+2+2] CYCLIZATIONS 299 7.2.4 CO-CATALYZED [2+2] CYCLIZATIONS 300 7.3 CO-CATALYZED HYDROGENATION 301 7.3.1 HYDROGENATION OF CARBON DIOXIDE 301 7.3.2 HYDROGENATION OF ALKENES 304 7.3.3 HYDROGENATION OF ALKYNES 306 7.4 CO-CATALYZED HYDROFORMYLATION 307 7.4.1 DIRECT HYDROFORMYLATION BY H 2 AND CO 308 7.4.2 TRANSFER HYDROFORMYLATION 309 7.5 CO-MEDIATED CARBENE ACTIVATION 310 7.5.1 ARYLATION OF CARBENE 310 7.5.2 CARBOXYLATION OF CARBENE 312 7.6 CO-MEDIATED NITRENE ACTIVATION 313 7.6.1 AZIRIDINATION OF OLEFINS 314 7.6.2 AMINATION OF ISONITRILES 314 7.6.3 AMINATION OF C H BONDS 315 REFERENCES 317 8 THEORETICAL STUDY OF RH-CATALYSIS 329 8.1 RH-MEDIATED C -H ACTIVATION REACTIONS 330 8.1.1 RH-CATALYZED ARYLATION OF C - H BOND 330 8.1.2 RH-CATALYZED ALKYLATION OF C - H BOND 332 8.1.3 RH-CATALYZED ALKENYLATION OF C - H BOND 335 8.1.4 RH-CATALYZED AMINATION OF C H BOND 338 8.1.5 RH-CATALYZED HALOGENATION OF C - H BOND 340 8.2 RH-CATALYZED C - C BOND ACTIVATIONS AND TRANSFORMATIONS 341 8.2.1 STRAIN-DRIVEN OXIDATIVE ADDITION 341 8.2.2 THE CARBON - CYANO BOND ACTIVATION 342 8.2.3 0-CARBON ELIMINATION 343 8.3 RH-MEDIATED C - HETERO BOND ACTIVATIONS 343 CONTENTS 8.3.1 8.3.2 8.4 8.4.1 8.4.2 8.5 8.5.1 8.5.2 8.5.3 8.5.4 8.6 8.6.1 8.6.2 8.6.3 8.7 8.7.1 8.7.2 8.7.3 8.7.4 8.8 8.8.1 8.8.2 8.9 8.9.1 8.9.2 8.9.3 8.9.4 C - N BOND ACTIVATION 344 C - 0 BOND ACTIVATION 345 RH-CATALYZED ALKENE FUNCTIONALIZATIONS 345 HYDROGENATION OF ALKENE 346 DIBORATION OF ALKENE 347 RH-CATALYZED ALKYNE FUNCTIONALIZATIONS 349 HYDROACYLATION OF ALKYNES 349 HYDROAMINATION OF ALKYNES 349 HYDROTHIOLATION OF ALKYNES 351 HYDROACETOXYLATION OF ALKYNES 351 RH-CATALYZED ADDITION REACTIONS OF CARBONYL COMPOUNDS 352 HYDROGENATION OF KETONES 352 HYDROGENATION OF CARBON DIOXIDE 353 HYDROACYLATION OF KETONES 353 RH-CATALYZED CARBENE TRANSFORMATIONS 354 CARBENE INSERTION INTO C - H BONDS 354 ARYLATION OF CARBENES 357 CYCLOPROPANATION OF CARBENES 358 CYCLOPROPENATION OF CARBENES 359 RH-CATALYZED NITRENE TRANSFORMATIONS 359 NITRENE INSERTION INTO C - H BONDS 360 AZIRIDINATION OF N ITRENES 361 RH-CATALYZED CYCLOADDITIONS 362 (3+2) CYCLOADDITIONS 365 PAUSON-KHAND-TYPE (2+2+1) CYCLOADDITIONS 367 (5+2) CYCLOADDITIONS 367 (5+2+1) CYCLOADDITIONS 369 REFERENCES 369 9 9.1 9.1.1 9.1.2 9.1.3 9.1.4 9.2 9.2.1 9.2.2 9.2.3 9.3 9.3.1 9.3.2 9.4 9.4.1 9.4.2 THEORETICAL STUDY OF IR-CATALYSIS 387 IR-CATALYZED HYDROGENATIONS 387 HYDROGENATION OF ALKENES 388 HYDROGENATION OF CARBONYL COMPOUNDS 391 HYDROGENATION OF IMINES 393 HYDROGENATION OF QUINOLINES 396 IR-CATALYZED HYDROFUNCTIONALIZATIONS 397 IR-CATALYZED HYDROAMINATIONS 397 IR-CATALYZED HYDROARYLATIONS 397 IR-CATALYZED HYDROSILYLATIONS 399 IR-CATALYZED BORYLATIONS 401 BORYLATION OF ALKANES 402 BORYLATION OF ARENES 403 IR-CATALYZED AMINATIONS 405 AMINATION OF ALCOHOLS 405 AMINATION OF ARENES 407 CONTENTS XI 9.5 IR-CATALYZED C - C BOND COUPLING REACTIONS 407 REFERENCES 409 10 THEORETICAL STUDY OF FE-CATALYSIS 419 10.1 FE-MEDIATED OXIDATIONS 420 10.1.1 ALKANE OXIDATIONS 420 10.1.2 ARENE OXIDATIONS 422 10.1.3 ALKENE OXIDATIONS 423 10.1.4 OXIDATIVE CATECHOL RING CLEAVAGE 425 10.2 FE-MEDIATED HYDROGENATIONS 426 10.2.1 HYDROGENATION OF ALKENES 427 10.2.2 HYDROGENATION OF CARBONYLS 429 10.2.3 HYDROGENATION OF IMINES 430 10.2.4 HYDROGENATION OF CARBON DIOXIDE 430 10.3 FE-MEDIATED HYDROFUNCTIONALIZATIONS 431 10.3.1 HYDROSILYLATION OF KETONES 431 10.3.2 HYDROAMINATION OF ALLENES 432 10.4 FE-MEDIATED DEHYDROGENATIONS 434 10.4.1 DEHYDROGENATION OF ALCOHOLS 434 10.4.2 DEHYDROGENATION OF FORMALDEHYDE 435 10.4.3 DEHYDROGENATION OF FORMIC ACID 435 10.4.4 DEHYDROGENATION OF AMMONIA-BORANE 437 10.5 FE-CATALYZED COUPLING REACTIONS 438 10.5.1 C - C CROSS-COUPLINGS WITH ARYL HALIDE 438 10.5.2 C - N CROSS-COUPLINGS WITH ARYL HALIDE 438 10.5.3 C - C CROSS-COUPLINGS WITH ALKYL HALIDE 441 10.5.4 IRON-MEDIATED OXIDATIVE COUPLING 441 REFERENCES 441 11 THEORETICAL STUDY OF RU-CATALYSIS 451 11.1 RU-MEDIATED C - H BOND ACTIVATION 452 11.1.1 MECHANISM OF THE RU-MEDIATED C - H BOND CLEAVAGE 452 11.1.2 RU-CATALYZED C - H BOND ARYLATION 456 11.1.3 RU CATALYZED ORTHO ALKYLATION OF ARENES 460 11.1.4 RU-CATALYZED ORTHO-ALKENYLATION OF ARENES 461 11.2 RU-CATALYZED HYDROGENATIONS 464 11.2.1 HYDROGENATION OF ALKENES 464 11.2.2 HYDROGENATION OF CARBONYLS 465 11.2.3 HYDROGENATION OF ESTERS 466 11.2.4 HYDRODEFLUORINATION OF FLUOROARENES 467 11.3 RU-CATALYZED HYDROFUNCTIONALIZATIONS 468 11.3.1 HYDROACYLATIONS 469 11.3.2 HYDROCARBOXYLATIONS 470 11.3.3 HYDROBORATIONS 471 11.4 RU-MEDIATED DEHYDROGENATIONS 472 XII CONTENTS 11.4.1 11.4.2 11.4.3 11.5 11.5.1 11.5.2 11.5.3 11.6 11.6.1 11.6.2 11.6.3 DEHYDROGENATION OF ALCOHOLS 473 DEHYDROGENATION OF FORMALDEHYDE 473 DEHYDROGENATION OF FORMIC ACID 474 RU-CATALYZED CYCLOADDITIONS 475 RU-MEDIATED (2+2+2) CYCLOADDITIONS 475 RU-MEDIATED PAUSON-KHAND TYPE (2+2+1) CYCLOADDITIONS 478 RU-MEDIATED CLICK REACTIONS 478 RU-MEDIATED METATHESIS 480 RU-MEDIATED INTERMOLECULAR OLEFIN METATHESIS 482 RU-MEDIATED INTRAMOLECULAR DIENE METATHESIS 484 RU-MEDIATED ALKYNE METATHESIS 484 REFERENCES 485 12 12.1 12.1.1 12.1.2 12.1.3 12.1.4 12.2 12.2.1 12.2.2 12.2.3 12.3 12.3.1 12.3.2 12.4 12.4.1 12.4.2 THEORETICAL STUDY OF MN-CATALYSIS 499 MN-MEDIATED OXIDATION OF ALKANES 500 C - H HYDROXYLATIONS 500 C - H HALOGENATIONS 501 C -H AZIDATIONS 501 C -H ISOCYANATIONS 501 MN-MEDIATED C - H ACTIVATIONS 502 ELECTROPHILIC DEPROTONATION 503 O-COMPLEX-ASSISTED METATHESIS 504 CONCERTED METALATION-DEPROTONATION 505 MN-MEDIATED HYDROGENATIONS 507 HYDROGENATION OF CARBON DIOXIDE 507 HYDROGENATION OF CARBONATES 508 MN-MEDIATED DEHYDROGENATIONS 510 DEHYDROGENATION OF ALCOHOLS 510 DEHYDROGENATIVE COUPLINGS 511 REFERENCES 512 13 13.1 13.1.1 13.1.2 13.1.3 13.2 13.2.1 13.2.2 13.2.3 13.3 13.3.1 13.3.2 13.3.3 13.3.4 THEORETICAL STUDY OF CU-CATALYSIS 517 CU-MEDIATED ULLMANN CONDENSATIONS 518 C - N BOND COUPLINGS 520 C - 0 BOND COUPLINGS 522 C - F BOND COUPLINGS 522 CU-MEDIATED TRIFLUOROMETHYLATIONS 524 TRIFLUOROMETHYLATIONS THROUGH CROSS-COUPLING 524 TRIFLUOROMETHYLATIONS THROUGH OXIDATIVE COUPLING 524 RADICAL-TYPE TRIFLUOROMETHYLATIONS 525 CU-MEDIATED C -H ACTIVATIONS 527 C -H ARYLATIONS 527 C - H AMINATIONS 529 C - H HYDROXYLATION 531 C - H ETHERIFICATIONS 532 CONTENTS XIII 13.4 CU-MEDIATED ALKYNE ACTIVATIONS 533 13.4.1 AZIDE-ALKYNE CYCLOADDITIONS 533 13.4.2 NUCLEOPHILIC ATTACK ONTO ALKYNES 535 13.4.3 ALKYNYL CU TRANSFORMATIONS 536 13.5 CU-MEDIATED CARBENE TRANSFORMATIONS 539 13.5.1 [2+1] CYCLOADDITIONS WITH ALKENES 539 13.5.2 CARBENE INSERTIONS 541 13.5.3 REARRANGEMENT OF CARBENES 542 13.6 CU-MEDIATED NITRENE TRANSFORMATIONS 542 13.6.1 [2+1] CYCLOADDITIONS WITH ALKENES 543 13.6.2 AMINATION OF NITRENES 543 13.6.3 NITRENE INSERTIONS 544 13.7 CU-CATALYZED HYDROFUNCTIONALIZATIONS 545 13.7.1 HYDROBORYLATIONS 547 13.7.2 HYDROSILYLATION 547 13.7.3 HYDROCARBOXYLATIONS 548 13.8 CU-CATALYZED BORYLATIONS 549 13.8.1 BORYLATION OF ALKENES 551 13.8.2 BORYLATION OF ALKYNES 552 13.8.3 BORYLATION OF CARBONYLS 553 REFERENCES 554 14 THEORETICAL STUDY OF AG-CATALYSIS 567 14.1 AG-MEDIATED CARBENE COMPLEX TRANSFORMATIONS 568 14.1.1 SILVER-CARBENE FORMATION 568 14.1.2 CARBENE INSERTION INTO C - CL BOND 572 14.1.3 CARBENE INSERTION INTO O - H BOND 573 14.1.4 NUCLEOPHILIC ATTACK BY CARBONYL GROUPS 573 14.1.5 CARBENE INSERTION INTO C - H BOND 574 14.2 AG-MEDIATED NITRENE TRANSFORMATIONS 576 14.2.1 SILVER-NITRENE COMPLEX FORMATION 577 14.2.2 NUCLEOPHILIC ATTACK BY UNSATURATED BONDS 580 14.2.3 NUCLEOPHILIC ATTACK BY AMINES 582 14.3 AG-MEDIATED SILYLENE TRANSFORMATIONS 583 14.4 AG-MEDIATED ALKYNE ACTIVATIONS 585 14.4.1 IT-ACTIVATION OF ALKYNES 586 14.4.2 C - H ACTIVATION OF ALKYNES 587 REFERENCES 588 15 THEORETICAL STUDY OF AU-CATALYSIS 597 15.1 AU-MEDIATED ALKYNE ACTIVATIONS 598 15.1.1 ISOMERIZATION OF ALKYNES 599 15.1.2 NUCLEOPHILIC ATTACK BY OXYGEN-INVOLVED NUCLEOPHILES 599 15.1.3 NUCLEOPHILIC ATTACK BY NITROGEN-INVOLVED NUCLEOPHILES 602 15.1.4 NUCLEOPHILIC ATTACK BY ARENES 606 XIV CONTENTS 15.2 AU-MEDIATED ALKENE ACTIVATIONS 607 15.2.1 NUCLEOPHILIC ADDITION OF ALKENES 607 15.2.2 ALLYLIC SUBSTITUTIONS 608 15.3 AU-MEDIATED ALLENE ACTIVATIONS 609 15.3.1 HYDROAMINATION OF ALLENES 610 15.3.2 HYDROALKOXYLATION OF ALLENES 610 15.3.3 CYCLOISOMERIZATION OF ALLENYL KETONES 613 15.4 AU-MEDIATED ENYNE TRANSFORMATIONS 613 15.4.1 1,5-ENYNE CYCLOISOMERIZATIONS 614 15.4.2 1,6-ENYNE CYCLOISOMERIZATIONS 615 15.4.3 ALLENYNE CYCLOISOMERIZATIONS 617 15.4.4 CONJUGATIVE ENYNE CYCLOISOMERIZATIONS 617 REFERENCES 618 INDEX 629
adam_txt	CONTENTS FOREWORD XV PREFACE XVII PART I THEORETICAL VIEW OF ORGANOMETALLIC CATALYSIS 1 1 INTRODUCTION OF COMPUTATIONAL ORGANOMETALLIC CHEMISTRY 3 1.1 OVERVIEW OF ORGANOMETALLIC CHEMISTRY 3 1.1.1 GENERAL VIEW OF ORGANOMETALLIC CHEMISTRY 3 1.1.2 A BRIEF HISTORY OF ORGANOMETALLIC CHEMISTRY 6 1.2 USING COMPUTATIONAL TOOL TO STUDY THE ORGANOMETALLIC CHEMISTRY MECHANISM 8 1.2.1 MECHANISM OF TRANSITION METAL CATALYSIS 8 1.2.2 MECHANISTIC STUDY OF TRANSITION METAL CATALYSIS BY THEORETICAL METHODS 10 REFERENCES 13 2 COMPUTATIONAL METHODS IN ORGANOMETALLIC CHEMISTRY 19 2.1 INTRODUCTION OF COMPUTATIONAL METHODS 19 2.1.1 THE HISTORY OF QUANTUM CHEMISTRY COMPUTATIONAL METHODS 19 2.1.2 POST-HF METHODS 21 2.2 DENSITY FUNCTIONAL THEORY (DFT) METHODS 23 2.2.1 OVERVIEW OF DENSITY FUNCTIONAL THEORY METHODS 23 2.2.2 JACOB ' S LADDER OF DENSITY FUNCTIONALS 25 2.2.3 THE SECOND RUNG IN " JACOB ' S LADDER " OF DENSITY FUNCTIONALS 25 2.2.4 THE THIRD RUNG IN " JACOB ' S LADDER " OF DENSITY FUNCTIONALS 26 2.2.5 THE FOURTH RUNG IN " JACOB ' S LADDER " OF DENSITY FUNCTIONALS 26 2.2.6 THE FIFTH RUNG IN " JACOB ' S LADDER " OF DENSITY FUNCTIONALS 26 2.2.7 CORRECTION OF DISPERSION INTERACTION IN ORGANIC SYSTEMS 27 2.3 BASIS SET AND ITS APPLICATION IN MECHANISM STUDIES 29 2.3.1 GENERAL VIEW OF BASIS SET 29 2.3.2 POPLE ' S BASIS SETS 30 2.3.3 POLARIZATION FUNCTIONS 31 VI CONTENTS 2.3.4 DIFFUSE FUNCTIONS 31 2.3.5 CORRELATION-CONSISTENT BASIS SETS 31 2.3.6 PSEUDO POTENTIAL BASIS SETS 32 2.4 SOLVENT EFFECT 33 2.5 HOW TO CHOOSE A METHOD IN COMPUTATIONAL ORGANOMETALLIC CHEMISTRY 34 2.5.1 WHY DFT METHOD IS CHOSEN 34 2.5.2 HOW TO CHOOSE A DENSITY FUNCTIONAL 34 2.5.3 HOW TO CHOOSE A BASIS SET 36 2.6 REVEALING A MECHANISM FOR AN ORGANOMETALLIC REACTION BY THEORETICAL CALCULATIONS 37 2.7 OVERVIEW OF POPULAR COMPUTATIONAL PROGRAMS 37 2.8 THE LIMITATION OF CURRENT COMPUTATIONAL METHODS 40 2.8.1 THE ACCURACY OF DFT METHODS 40 2.8.2 EXACT SOLVATION EFFECT 41 2.8.3 EVALUATION OF ENTROPY EFFECT 41 2.8.4 THE COMPUTATION OF EXCITED STATE AND HIGH SPIN STATE 41 2.8.5 SPECULATION ON THE REACTION MECHANISM 41 REFERENCES 42 3 ELEMENTARY REACTIONS IN ORGANOMETALLIC CHEMISTRY 51 3.1 GENERAL VIEW OF ELEMENTARY REACTIONS IN ORGANOMETALLIC CHEMISTRY 51 3.2 COORDINATION AND DISSOCIATION 52 3.2.1 COORDINATION BOND AND COORDINATION 52 3.2.2 DISSOCIATION 55 3.2.3 LIGAND EXCHANGE 57 3.3 OXIDATIVE ADDITION 59 3.3.1 CONCERTED OXIDATIVE ADDITION 60 3.3.2 SUBSTITUTION-TYPE OXIDATIVE ADDITION 62 3.3.3 RADICAL-TYPE ADDITION 67 3.3.4 OXIDATIVE CYCLIZATION 68 3.4 REDUCTIVE ELIMINATION 70 3.4.1 CONCERTED REDUCTIVE ELIMINATION 71 3.4.2 SUBSTITUTION-TYPE REDUCTIVE ELIMINATION 73 3.4.3 RADICAL-SUBSTITUTION-TYPE REDUCTIVE ELIMINATION 74 3.4.4 BIMETALLIC REDUCTIVE ELIMINATION 75 3.4.5 ELIMINATIVE REDUCTION 78 3.5 INSERTION 78 3.5.1 1,2-INSERTION 79 3.5.2 1,1-INSERTION 80 3.5.3 CONJUGATIVE INSERTION 83 3.5.4 OUTER-SPHERE INSERTION 84 3.6 ELIMINATION 86 3.6.1 P-ELIMINATION 86 3.6.2 A-ELIMINATION 90 CONTENTS VII 3.7 3.7.1 3.7.2 3.7.3 3.8 3.8.1 3.8.2 3.8.3 TRANSMETALLATION 92 CONCERTED RING-TYPE TRANSMETALLATION 92 TRANSMETALLATION THROUGH ELECTROPHILIC SUBSTITUTION 98 STEPWISE TRANSMETALLATION 99 METATHESIS 100 O-BOND METATHESIS 100 OLEFIN METATHESIS 102 ALKYNE METATHESIS 106 REFERENCES 106 PART II ON THE MECHANISM OF TRANSITION-METAL-ASSISTED REACTIONS 125 4 4.1 4.1.1 4.1.2 4.2 4.2.1 4.2.2 4.2.3 4.2.4 4.3 4.3.1 4.3.2 4.4 4.5 4.5.1 4.5.2 4.6 4.6.1 4.6.2 4.6.3 4.6.4 4.7 4.7.1 4.7.2 4.7.3 THEORETICAL STUDY OF NI-CATALYSIS 127 NI-MEDIATED C - H BOND ACTIVATION 128 NI-MEDIATED ARENE C - H ACTIVATION 128 NI-MEDIATED ALDEHYDE C -H ACTIVATION 132 NI-MEDIATED C - HALOGEN BOND CLEAVAGE 133 CONCERTED OXIDATIVE ADDITION OF C - HALOGEN BOND 133 RADICAL-TYPE SUBSTITUTION OF C - HALOGEN BOND 135 C - HALOGEN BOND CLEAVAGE BY 0-HALIDE ELIMINATION 137 NUCLEOPHILIC SUBSTITUTION OF C - HALOGEN BOND 139 NI-MEDIATED C - 0 BOND ACTIVATION 140 ETHER C - 0 BOND ACTIVATION 140 ESTER C - 0 BOND ACTIVATION 142 NI-MEDIATED C - N BOND CLEAVAGE 148 NI-MEDIATED C - C BOND CLEAVAGE 151 C - C SINGLE BOND ACTIVATION 151 C=C DOUBLE BOND ACTIVATION 152 NI-MEDIATED UNSATURATED BOND ACTIVATION 153 OXIDATIVE CYCLIZATION WITH UNSATURATED BONDS 153 ELECTROPHILIC ADDITION OF UNSATURATED BONDS 156 UNSATURATED COMPOUNDS INSERTION 157 NUCLEOPHILIC ADDITION OF UNSATURATED BONDS 159 NI-MEDIATED CYCLIZATION 160 NI-MEDIATED CYCLOADDITIONS 161 NI-MEDIATED RING SUBSTITUTIONS 163 NI-MEDIATED RING EXTENSIONS 166 REFERENCES 168 5 5.1 5.1.1 5.1.2 THEORETICAL STUDY OF PD-CATALYSIS 181 PD CATALYZED CROSS-COUPLING REACTIONS 182 SUZUKI-MIYAURA COUPLING 183 NEGISHI COUPLING 186 VIII CONTENTS 5.1.3 STILLE COUPLING 189 5.1.4 HIYAMA COUPLING 190 5.1.5 HECK-MIZOROKI REACTION 192 5.2 PD-MEDIATED C - HETERO BOND FORMATION 196 5.2.1 C - B BOND FORMATION 196 5.2.2 C - S BOND FORMATION 197 5.2.3 C - I BOND FORMATION 200 5.2.4 C - SI BOND FORMATION 201 5.3 PD-MEDIATED C -H ACTIVATION REACTIONS 204 5.3.1 CHELATION-FREE C(SP 3 ) - H ACTIVATION 206 5.3.2 CHELATION-FREE C(SP 2 ) - H ACTIVATION 208 5.3.3 COORDINATIVE CHELATION-ASSISTED ORTHO C(ARYL) - H ACTIVATION 210 5.3.4 COVALENT CHELATION-ASSISTED ORTHO C(ARYL) - H ACTIVATION 212 5.3.5 CHELATION-ASSISTED META C(ARYL) -H ACTIVATION 214 5.3.6 COORDINATIVE CHELATION-ASSISTED C(SP 3 ) - H ACTIVATION 216 5.3.7 COVALENT CHELATION-ASSISTED C(SP 3 ) - H ACTIVATION 216 5.3.8 C - H BOND ACTIVATION THROUGH ELECTROPHILIC DEPROTONATION 219 5.3.9 C -H BOND ACTIVATION THROUGH O-COMPLEX-ASSISTED METATHESIS 221 5.3.10 C - H BOND ACTIVATION THROUGH OXIDATIVE ADDITION 223 5.4 PD-MEDIATED ACTIVATION OF UNSATURATED MOLECULES 224 5.4.1 ALKENE ACTIVATION 225 5.4.2 ALKYNE ACTIVATION 225 5.4.3 ENYNE ACTIVATION 226 5.4.4 IMINE ACTIVATION 229 5.4.5 CO ACTIVATION 229 5.4.6 ISOCYANIDE ACTIVATION 231 5.4.7 CARBENE ACTIVATION 231 5.5 ALLYLIC PD COMPLEX 234 5.5.1 FORMATION FROM ALLYLIC OXIDATIVE ADDITION 235 5.5.2 FORMATION FROM ALLYLIC NUCLEOPHILIC SUBSTITUTION 236 5.5.3 FORMATION FROM THE NUCLEOPHILIC ATTACK ONTO ALLENE 237 5.5.4 FORMATION FROM ALLYLIC C - H ACTIVATION 237 5.5.5 FORMATION FROM ALLENE INSERTION 238 REFERENCES 239 6 THEORETICAL STUDY OF PT-CATALYSIS 257 6.1 MECHANISM OF PT-CATALYZED C -H ACTIVATION 258 6.1.1 OXIDATIVE ADDITION OF C - H BOND 259 6.1.2 ELECTROPHILIC DEHYDROGENATION 259 6.1.3 CARBENE INSERTION INTO C - H BONDS 261 6.2 MECHANISM OF PT-CATALYZED ALKYNE ACTIVATION 264 6.2.1 NUCLEOPHILIC ADDITIONS 264 6.2.2 CYCLOPROPANATION 266 6.2.3 OXIDATIVE CYCLOADDITION 268 6.3 MECHANISM OF PT-CATALYZED ALKENE ACTIVATION 270 CONTENTS IX 6.3.1 HYDROAMINATION OF ALKENES 270 63.2 HYDROFORMYLATION OF ALKENES 272 6.3.3 ISOMERIZATION OF CYCLOPROPENES 273 REFERENCES 274 7 THEORETICAL STUDY OF CO-CATALYSIS 289 7.1 CO-MEDIATED C - H BOND ACTIVATION 289 7.1.1 HYDROARYLATION OF ALKENES 291 7.1.2 HYDROARYLATION OF ALLENES 293 7.1.3 HYDROARYLATION OF ALKYNES 294 7.1.4 HYDROARYLATION OF NITRENOID 296 7.1.5 OXIDATIVE C - H ALKOXYLATION 297 7.2 CO-MEDIATED CYCLOADDITIONS 297 7.2.1 CO-MEDIATED PAUSON-KHAND REACTION 298 7.2.2 CO-CATALYZED [4+2] CYCLIZATIONS 299 7.2.3 CO-CATALYZED [2+2+2] CYCLIZATIONS 299 7.2.4 CO-CATALYZED [2+2] CYCLIZATIONS 300 7.3 CO-CATALYZED HYDROGENATION 301 7.3.1 HYDROGENATION OF CARBON DIOXIDE 301 7.3.2 HYDROGENATION OF ALKENES 304 7.3.3 HYDROGENATION OF ALKYNES 306 7.4 CO-CATALYZED HYDROFORMYLATION 307 7.4.1 DIRECT HYDROFORMYLATION BY H 2 AND CO 308 7.4.2 TRANSFER HYDROFORMYLATION 309 7.5 CO-MEDIATED CARBENE ACTIVATION 310 7.5.1 ARYLATION OF CARBENE 310 7.5.2 CARBOXYLATION OF CARBENE 312 7.6 CO-MEDIATED NITRENE ACTIVATION 313 7.6.1 AZIRIDINATION OF OLEFINS 314 7.6.2 AMINATION OF ISONITRILES 314 7.6.3 AMINATION OF C H BONDS 315 REFERENCES 317 8 THEORETICAL STUDY OF RH-CATALYSIS 329 8.1 RH-MEDIATED C -H ACTIVATION REACTIONS 330 8.1.1 RH-CATALYZED ARYLATION OF C - H BOND 330 8.1.2 RH-CATALYZED ALKYLATION OF C - H BOND 332 8.1.3 RH-CATALYZED ALKENYLATION OF C - H BOND 335 8.1.4 RH-CATALYZED AMINATION OF C H BOND 338 8.1.5 RH-CATALYZED HALOGENATION OF C - H BOND 340 8.2 RH-CATALYZED C - C BOND ACTIVATIONS AND TRANSFORMATIONS 341 8.2.1 STRAIN-DRIVEN OXIDATIVE ADDITION 341 8.2.2 THE CARBON - CYANO BOND ACTIVATION 342 8.2.3 0-CARBON ELIMINATION 343 8.3 RH-MEDIATED C - HETERO BOND ACTIVATIONS 343 CONTENTS 8.3.1 8.3.2 8.4 8.4.1 8.4.2 8.5 8.5.1 8.5.2 8.5.3 8.5.4 8.6 8.6.1 8.6.2 8.6.3 8.7 8.7.1 8.7.2 8.7.3 8.7.4 8.8 8.8.1 8.8.2 8.9 8.9.1 8.9.2 8.9.3 8.9.4 C - N BOND ACTIVATION 344 C - 0 BOND ACTIVATION 345 RH-CATALYZED ALKENE FUNCTIONALIZATIONS 345 HYDROGENATION OF ALKENE 346 DIBORATION OF ALKENE 347 RH-CATALYZED ALKYNE FUNCTIONALIZATIONS 349 HYDROACYLATION OF ALKYNES 349 HYDROAMINATION OF ALKYNES 349 HYDROTHIOLATION OF ALKYNES 351 HYDROACETOXYLATION OF ALKYNES 351 RH-CATALYZED ADDITION REACTIONS OF CARBONYL COMPOUNDS 352 HYDROGENATION OF KETONES 352 HYDROGENATION OF CARBON DIOXIDE 353 HYDROACYLATION OF KETONES 353 RH-CATALYZED CARBENE TRANSFORMATIONS 354 CARBENE INSERTION INTO C - H BONDS 354 ARYLATION OF CARBENES 357 CYCLOPROPANATION OF CARBENES 358 CYCLOPROPENATION OF CARBENES 359 RH-CATALYZED NITRENE TRANSFORMATIONS 359 NITRENE INSERTION INTO C - H BONDS 360 AZIRIDINATION OF N ITRENES 361 RH-CATALYZED CYCLOADDITIONS 362 (3+2) CYCLOADDITIONS 365 PAUSON-KHAND-TYPE (2+2+1) CYCLOADDITIONS 367 (5+2) CYCLOADDITIONS 367 (5+2+1) CYCLOADDITIONS 369 REFERENCES 369 9 9.1 9.1.1 9.1.2 9.1.3 9.1.4 9.2 9.2.1 9.2.2 9.2.3 9.3 9.3.1 9.3.2 9.4 9.4.1 9.4.2 THEORETICAL STUDY OF IR-CATALYSIS 387 IR-CATALYZED HYDROGENATIONS 387 HYDROGENATION OF ALKENES 388 HYDROGENATION OF CARBONYL COMPOUNDS 391 HYDROGENATION OF IMINES 393 HYDROGENATION OF QUINOLINES 396 IR-CATALYZED HYDROFUNCTIONALIZATIONS 397 IR-CATALYZED HYDROAMINATIONS 397 IR-CATALYZED HYDROARYLATIONS 397 IR-CATALYZED HYDROSILYLATIONS 399 IR-CATALYZED BORYLATIONS 401 BORYLATION OF ALKANES 402 BORYLATION OF ARENES 403 IR-CATALYZED AMINATIONS 405 AMINATION OF ALCOHOLS 405 AMINATION OF ARENES 407 CONTENTS XI 9.5 IR-CATALYZED C - C BOND COUPLING REACTIONS 407 REFERENCES 409 10 THEORETICAL STUDY OF FE-CATALYSIS 419 10.1 FE-MEDIATED OXIDATIONS 420 10.1.1 ALKANE OXIDATIONS 420 10.1.2 ARENE OXIDATIONS 422 10.1.3 ALKENE OXIDATIONS 423 10.1.4 OXIDATIVE CATECHOL RING CLEAVAGE 425 10.2 FE-MEDIATED HYDROGENATIONS 426 10.2.1 HYDROGENATION OF ALKENES 427 10.2.2 HYDROGENATION OF CARBONYLS 429 10.2.3 HYDROGENATION OF IMINES 430 10.2.4 HYDROGENATION OF CARBON DIOXIDE 430 10.3 FE-MEDIATED HYDROFUNCTIONALIZATIONS 431 10.3.1 HYDROSILYLATION OF KETONES 431 10.3.2 HYDROAMINATION OF ALLENES 432 10.4 FE-MEDIATED DEHYDROGENATIONS 434 10.4.1 DEHYDROGENATION OF ALCOHOLS 434 10.4.2 DEHYDROGENATION OF FORMALDEHYDE 435 10.4.3 DEHYDROGENATION OF FORMIC ACID 435 10.4.4 DEHYDROGENATION OF AMMONIA-BORANE 437 10.5 FE-CATALYZED COUPLING REACTIONS 438 10.5.1 C - C CROSS-COUPLINGS WITH ARYL HALIDE 438 10.5.2 C - N CROSS-COUPLINGS WITH ARYL HALIDE 438 10.5.3 C - C CROSS-COUPLINGS WITH ALKYL HALIDE 441 10.5.4 IRON-MEDIATED OXIDATIVE COUPLING 441 REFERENCES 441 11 THEORETICAL STUDY OF RU-CATALYSIS 451 11.1 RU-MEDIATED C - H BOND ACTIVATION 452 11.1.1 MECHANISM OF THE RU-MEDIATED C - H BOND CLEAVAGE 452 11.1.2 RU-CATALYZED C - H BOND ARYLATION 456 11.1.3 RU CATALYZED ORTHO ALKYLATION OF ARENES 460 11.1.4 RU-CATALYZED ORTHO-ALKENYLATION OF ARENES 461 11.2 RU-CATALYZED HYDROGENATIONS 464 11.2.1 HYDROGENATION OF ALKENES 464 11.2.2 HYDROGENATION OF CARBONYLS 465 11.2.3 HYDROGENATION OF ESTERS 466 11.2.4 HYDRODEFLUORINATION OF FLUOROARENES 467 11.3 RU-CATALYZED HYDROFUNCTIONALIZATIONS 468 11.3.1 HYDROACYLATIONS 469 11.3.2 HYDROCARBOXYLATIONS 470 11.3.3 HYDROBORATIONS 471 11.4 RU-MEDIATED DEHYDROGENATIONS 472 XII CONTENTS 11.4.1 11.4.2 11.4.3 11.5 11.5.1 11.5.2 11.5.3 11.6 11.6.1 11.6.2 11.6.3 DEHYDROGENATION OF ALCOHOLS 473 DEHYDROGENATION OF FORMALDEHYDE 473 DEHYDROGENATION OF FORMIC ACID 474 RU-CATALYZED CYCLOADDITIONS 475 RU-MEDIATED (2+2+2) CYCLOADDITIONS 475 RU-MEDIATED PAUSON-KHAND TYPE (2+2+1) CYCLOADDITIONS 478 RU-MEDIATED CLICK REACTIONS 478 RU-MEDIATED METATHESIS 480 RU-MEDIATED INTERMOLECULAR OLEFIN METATHESIS 482 RU-MEDIATED INTRAMOLECULAR DIENE METATHESIS 484 RU-MEDIATED ALKYNE METATHESIS 484 REFERENCES 485 12 12.1 12.1.1 12.1.2 12.1.3 12.1.4 12.2 12.2.1 12.2.2 12.2.3 12.3 12.3.1 12.3.2 12.4 12.4.1 12.4.2 THEORETICAL STUDY OF MN-CATALYSIS 499 MN-MEDIATED OXIDATION OF ALKANES 500 C - H HYDROXYLATIONS 500 C - H HALOGENATIONS 501 C -H AZIDATIONS 501 C -H ISOCYANATIONS 501 MN-MEDIATED C - H ACTIVATIONS 502 ELECTROPHILIC DEPROTONATION 503 O-COMPLEX-ASSISTED METATHESIS 504 CONCERTED METALATION-DEPROTONATION 505 MN-MEDIATED HYDROGENATIONS 507 HYDROGENATION OF CARBON DIOXIDE 507 HYDROGENATION OF CARBONATES 508 MN-MEDIATED DEHYDROGENATIONS 510 DEHYDROGENATION OF ALCOHOLS 510 DEHYDROGENATIVE COUPLINGS 511 REFERENCES 512 13 13.1 13.1.1 13.1.2 13.1.3 13.2 13.2.1 13.2.2 13.2.3 13.3 13.3.1 13.3.2 13.3.3 13.3.4 THEORETICAL STUDY OF CU-CATALYSIS 517 CU-MEDIATED ULLMANN CONDENSATIONS 518 C - N BOND COUPLINGS 520 C - 0 BOND COUPLINGS 522 C - F BOND COUPLINGS 522 CU-MEDIATED TRIFLUOROMETHYLATIONS 524 TRIFLUOROMETHYLATIONS THROUGH CROSS-COUPLING 524 TRIFLUOROMETHYLATIONS THROUGH OXIDATIVE COUPLING 524 RADICAL-TYPE TRIFLUOROMETHYLATIONS 525 CU-MEDIATED C -H ACTIVATIONS 527 C -H ARYLATIONS 527 C - H AMINATIONS 529 C - H HYDROXYLATION 531 C - H ETHERIFICATIONS 532 CONTENTS XIII 13.4 CU-MEDIATED ALKYNE ACTIVATIONS 533 13.4.1 AZIDE-ALKYNE CYCLOADDITIONS 533 13.4.2 NUCLEOPHILIC ATTACK ONTO ALKYNES 535 13.4.3 ALKYNYL CU TRANSFORMATIONS 536 13.5 CU-MEDIATED CARBENE TRANSFORMATIONS 539 13.5.1 [2+1] CYCLOADDITIONS WITH ALKENES 539 13.5.2 CARBENE INSERTIONS 541 13.5.3 REARRANGEMENT OF CARBENES 542 13.6 CU-MEDIATED NITRENE TRANSFORMATIONS 542 13.6.1 [2+1] CYCLOADDITIONS WITH ALKENES 543 13.6.2 AMINATION OF NITRENES 543 13.6.3 NITRENE INSERTIONS 544 13.7 CU-CATALYZED HYDROFUNCTIONALIZATIONS 545 13.7.1 HYDROBORYLATIONS 547 13.7.2 HYDROSILYLATION 547 13.7.3 HYDROCARBOXYLATIONS 548 13.8 CU-CATALYZED BORYLATIONS 549 13.8.1 BORYLATION OF ALKENES 551 13.8.2 BORYLATION OF ALKYNES 552 13.8.3 BORYLATION OF CARBONYLS 553 REFERENCES 554 14 THEORETICAL STUDY OF AG-CATALYSIS 567 14.1 AG-MEDIATED CARBENE COMPLEX TRANSFORMATIONS 568 14.1.1 SILVER-CARBENE FORMATION 568 14.1.2 CARBENE INSERTION INTO C - CL BOND 572 14.1.3 CARBENE INSERTION INTO O - H BOND 573 14.1.4 NUCLEOPHILIC ATTACK BY CARBONYL GROUPS 573 14.1.5 CARBENE INSERTION INTO C - H BOND 574 14.2 AG-MEDIATED NITRENE TRANSFORMATIONS 576 14.2.1 SILVER-NITRENE COMPLEX FORMATION 577 14.2.2 NUCLEOPHILIC ATTACK BY UNSATURATED BONDS 580 14.2.3 NUCLEOPHILIC ATTACK BY AMINES 582 14.3 AG-MEDIATED SILYLENE TRANSFORMATIONS 583 14.4 AG-MEDIATED ALKYNE ACTIVATIONS 585 14.4.1 IT-ACTIVATION OF ALKYNES 586 14.4.2 C - H ACTIVATION OF ALKYNES 587 REFERENCES 588 15 THEORETICAL STUDY OF AU-CATALYSIS 597 15.1 AU-MEDIATED ALKYNE ACTIVATIONS 598 15.1.1 ISOMERIZATION OF ALKYNES 599 15.1.2 NUCLEOPHILIC ATTACK BY OXYGEN-INVOLVED NUCLEOPHILES 599 15.1.3 NUCLEOPHILIC ATTACK BY NITROGEN-INVOLVED NUCLEOPHILES 602 15.1.4 NUCLEOPHILIC ATTACK BY ARENES 606 XIV CONTENTS 15.2 AU-MEDIATED ALKENE ACTIVATIONS 607 15.2.1 NUCLEOPHILIC ADDITION OF ALKENES 607 15.2.2 ALLYLIC SUBSTITUTIONS 608 15.3 AU-MEDIATED ALLENE ACTIVATIONS 609 15.3.1 HYDROAMINATION OF ALLENES 610 15.3.2 HYDROALKOXYLATION OF ALLENES 610 15.3.3 CYCLOISOMERIZATION OF ALLENYL KETONES 613 15.4 AU-MEDIATED ENYNE TRANSFORMATIONS 613 15.4.1 1,5-ENYNE CYCLOISOMERIZATIONS 614 15.4.2 1,6-ENYNE CYCLOISOMERIZATIONS 615 15.4.3 ALLENYNE CYCLOISOMERIZATIONS 617 15.4.4 CONJUGATIVE ENYNE CYCLOISOMERIZATIONS 617 REFERENCES 618 INDEX 629
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author	Lan, Yu
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author_facet	Lan, Yu
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author_sort	Lan, Yu
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building	Verbundindex
bvnumber	BV047125702
classification_rvk	VC 6100 VE 7040 VH 9700
ctrlnum	(OCoLC)1256428383 (DE-599)DNB1217131876
discipline	Chemie / Pharmazie
discipline_str_mv	Chemie / Pharmazie
format	Book
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id	DE-604.BV047125702
illustrated	Illustrated
index_date	2024-07-03T16:30:35Z
indexdate	2024-07-10T09:03:21Z
institution	BVB
institution_GND	(DE-588)16179388-5
isbn	9783527346011
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-032531934
oclc_num	1256428383
open_access_boolean
owner	DE-11 DE-19 DE-BY-UBM
owner_facet	DE-11 DE-19 DE-BY-UBM
physical	xviii, 648 Seiten Illustrationen
publishDate	2021
publishDateSearch	2021
publishDateSort	2021
publisher	Wiley-VCH
record_format	marc
spelling	Lan, Yu Verfasser (DE-588)1235183041 aut Computational methods in organometallic catalysis from elementary reaction to mechanisms Yu Lan Weinheim Wiley-VCH [2021] © 2021 xviii, 648 Seiten Illustrationen txt rdacontent n rdamedia nc rdacarrier Katalyse (DE-588)4029921-1 gnd rswk-swf Metallorganische Verbindungen (DE-588)4038906-6 gnd rswk-swf Metallorganische Chemie (DE-588)4602390-2 gnd rswk-swf Computational chemistry (DE-588)4290091-8 gnd rswk-swf Catalysis Chemie Chemistry Computational Chemistry & Molecular Modeling Computational Chemistry u. Molecular Modeling Katalyse Organic Chemistry Organische Chemie CH40: Katalyse CH80: Organische Chemie CHD0: Computational Chemistry u. Molecular Modeling Metallorganische Chemie (DE-588)4602390-2 s Katalyse (DE-588)4029921-1 s DE-604 Metallorganische Verbindungen (DE-588)4038906-6 s Computational chemistry (DE-588)4290091-8 s Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-527-34605-9 Erscheint auch als Online-Ausgabe, EPUB 978-3-527-34603-5 Erscheint auch als Online-Ausgabe, OBOOK 978-3-527-34602-8 X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34601-1/ Kurzbeschreibung DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032531934&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Lan, Yu Computational methods in organometallic catalysis from elementary reaction to mechanisms Katalyse (DE-588)4029921-1 gnd Metallorganische Verbindungen (DE-588)4038906-6 gnd Metallorganische Chemie (DE-588)4602390-2 gnd Computational chemistry (DE-588)4290091-8 gnd
subject_GND	(DE-588)4029921-1 (DE-588)4038906-6 (DE-588)4602390-2 (DE-588)4290091-8
title	Computational methods in organometallic catalysis from elementary reaction to mechanisms
title_auth	Computational methods in organometallic catalysis from elementary reaction to mechanisms
title_exact_search	Computational methods in organometallic catalysis from elementary reaction to mechanisms
title_exact_search_txtP	Computational methods in organometallic catalysis from elementary reaction to mechanisms
title_full	Computational methods in organometallic catalysis from elementary reaction to mechanisms Yu Lan
title_fullStr	Computational methods in organometallic catalysis from elementary reaction to mechanisms Yu Lan
title_full_unstemmed	Computational methods in organometallic catalysis from elementary reaction to mechanisms Yu Lan
title_short	Computational methods in organometallic catalysis
title_sort	computational methods in organometallic catalysis from elementary reaction to mechanisms
title_sub	from elementary reaction to mechanisms
topic	Katalyse (DE-588)4029921-1 gnd Metallorganische Verbindungen (DE-588)4038906-6 gnd Metallorganische Chemie (DE-588)4602390-2 gnd Computational chemistry (DE-588)4290091-8 gnd
topic_facet	Katalyse Metallorganische Verbindungen Metallorganische Chemie Computational chemistry
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34601-1/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032531934&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT lanyu computationalmethodsinorganometalliccatalysisfromelementaryreactiontomechanisms AT wileyvch computationalmethodsinorganometalliccatalysisfromelementaryreactiontomechanisms

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