Verfügbarkeit: Electrophilic aromatic substitution

Electrophilic aromatic substitution:

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Bibliographische Detailangaben
1. Verfasser:	Taylor, Roger (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Chichester [u.a.] Wiley 1990
Schlagworte:	Aromatic compounds Substitution reactions Elektrophile Substitution Aromatische Verbindungen Aromaten
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVI, 513 S. graph. Darst.
ISBN:	0471924822

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Datensatz im Suchindex

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adam_text	ELECTROPHILIC AROMATIC SUBSTITUTION R. TAYLOR READER IN CHEMISTRY, UNIVERSITY OF SUSSEX JOHN WILEY & SONS CHICHESTER * NEW YORK * BRISBANE * TORONTO * SINGAPORE CONTENTS CHAPTER 1 INTRODUCTION 1 1.1 THE STRUCTURE AND STABILITY OF AROMATIC COMPOUNDS . . . . 1 1.2 TYPES OF COMPOUNDS 4 1.3 TYPES OF SUBSTITUTION 6 1.4 THE POLAR EFFECTS OF SUBSTITUENTS 8 1.4.1 INDUCTIVE AND FIELD EFFECTS 8 1.4.2 THE RESONANCE POLAR EFFECT 11 1.4.3 HYPERCONJUGATION 15 1.4.4 THE HAMMETT EQUATION 19 1.4.5 CONCLUSIONS 22 CHAPTER 2 THE MECHANISM OF ELECTROPHILIC AROMATIC SUBSTITUTION . . . 25 2.1 REACTION OF THE REAGENT WITH THE AROMATIC NUCLEUS 25 2.1.1 ISOLATION OF INTERMEDIATES 26 2.1.2 NATURE OF THE INTERMEDIATE COMPLEXES 29 2.1.3 KINETIC ISOTOPE EFFECTS 32 2.2 THE THEORY OF REACTION RATES 34 2.2.1 THE ISOLATED MOLECULE METHOD 34 2.2.2 THE LOCALIZATION ENERGY METHOD 36 2.3 PARTIAL RATE FACTORS 40 2.4 THE ELECTRONIC EFFECTS OF SUBSTITUENTS 41 2.4.1 ALKYLGROUPS 43 2.4.2 POSITIVELY CHARGED SUBSTITUENTS 44 2.4.3 SUBSTITUENTS WITH DIPOLAR DOUBLE OR TRIPLE BONDS. . . 44 2.4.4 SUBSTITUENTS IN WHICH THE ATOM BONDED TO BENZENE HAS AN UNSHARED PAIR OF ELECTRONS 45 2.4.5 SUBSTITUENTS POSSESSING A VACANT ATOMIC ORBITAL . . . 48 2.4.6 SUBSTITUTED METHYL GROUPS 48 2.4.7 BIPHENYL BI- AND POLYCYCLIC SYSTEMS 49 2.4.8 TWO OR MORE SUBSTITUENTS 50 2.4.9 SUMMARY 51 VLLL CONTENTS 2.5 THE STERIC EFFECTS OF SUBSTITUENTS AND ELECTROPHILES 52 2.5.1 STERIC HINDRANCE 52 2.5.2 STERIC ACCELERATION 53 2.6 THE EFFECT OF STRAIN 53 2.7 THE EFFECT OF ELECTROPHILE REACTIVITY ON ORIENTATION AND AROMATIC REACTIVITY 55 2.8 REVERSIBILITY AND REARRANGEMENT 56 2.8.1 REVERSIBILITY 56 2.8.2 REARRANGEMENT 56 2.9 MECHANISMS INVOLVING MIGRATION OF THE ELECTROPHILE FROM A SIDE-CHAIN 57 2.10 MICROSCOPIC AND MACROSCOPIC DIFFUSION CONTROL OF RELATIVE REACTIVITIES 57 CHAPTER 3 HYDROGEN EXCHANGE 61 3.1 ACID-CATALYSED HYDROGEN EXCHANGE 62 3.1.1 MECHANISM OF EXCHANGE 64 (I) NATURE OF THE ACID CATALYSIS 64 (II) INTERMEDIATES 64 (III) EXTENT OF PROTON TRANSFER 65 (IV) ISOTOPE EFFECTS 66 (V) ENERGY-BARRIER HEIGHTS 67 (VI) VARIATION OF RATES WITH TEMPERATURE 67 3.1.2 SUBSTITUENT EFFECTS 68 3.1.2.1 ALKYL SUBSTITUENTS 68 3.1.2.2 POLYALKYL SUBSTITUENTS 74 3.1.2.3 CYCLIC ALKYL SUBSTITUENTS: THE MILLS-NIXON EFFECT 76 3.1.2.4 SUBSTITUTED ALKYL SUBSTITUENTS 80 3.1.2.5 HALOGEN SUBSTITUENTS 84 3.1.2.6 POLYSUBSTITUTED AROMATICS CONTAINING A HALOGEN SUBSTITUENT 86 3.1.2.7 OXYGEN-AND SULPHUR-CONTAINING SUBSTITUENTS. . 88 3.1.2.8 SUBSTITUTED IV,IV-DIALKYLANILINES 89 3.1.2.9 SUBSTITUTED ACETOPHENONES 90 3.1.2.10 BIPHENYL AND RELATED COMPOUNDS 90 3.1.2.11 ATROPISOMERS 95 3.1.2.12 POLYCYCLIC AROMATICS 96 (I) ANNELATION 97 (II) POSITIONAL REACTIVITY ORDERS 102 (III) THE EFFECT OF BENZENE RING DISTORTION . . . 103 (IV) SILVER-COMPLEX FORMATION 104 3.1.2.13 SUBSTITUTED POLYCYCLIC AROMATICS 104 (I) PREDICTION OF ISOMER YIELDS IN OTHER REACTIONS 105 CONTENTS IX (II) CONJUGATED VS NON-CONJUGATED SITES . . . 105 (III) BOND FIXATION 105 (IV) NUMBER OF SITES FOR DELOCALIZATION OF CHARGE 110 (V) THE EFFECT OF I,J- VS J,/-SUBSTITUENT-SITE INTERACTIONS 112 (VI) ADDITIVITY OF METHYL SUBSTITUENT EFFECTS . . 112 (VII) SUBSTITUTION AT AN ENCLOSED SITE . . . . 114 (VIII) TRITIUM MIGRATION DURING EXCHANGE . . . 115 3.1.2.14 LONG-RANGE SUBSTITUENT EFFECTS 116 3.1.2.15 METAL-CONTAINING SUBSTITUENTS 117 3.1.2.16 ANNULENES 117 3.2 GAS-PHASE HYDROGEN EXCHANGE 118 3.3 BASE-CATALYSED HYDROGEN EXCHANGE 119 CHAPTER 4 THE REPLACEMENT OF A SUBSTITUENT BY HYDROGEN 130 4.1 PROTIODEAURATION 131 4.2 PROTIODEMAGNESIATION 131 4.3 PROTIODEMERCURIATION 132 4.4 PROTIODEBORONATION 134 4.5 PROTIODEALKYLATION 136 4.6 PROTIODECARBONYLATION 139 4.6.1 PROTIODEACYLATION 139 4.6.2 PROTIODECARBOXYLATION 141 4.7 PROTIODESILYLATION 143 4.7.1 ACID-CATALYSED PROTIODESILYLATION 143 (I) MECHANISM 143 (II) SUBSTITUENT EFFECTS 144 (III) SUBSTITUENT EFFECTS IN BIPHENYL 151 (IV) SUBSTITUENT EFFECTS IN L,6-METHANO[10]ANNULENE . . 152 (V) ADDITIVITY EFFECTS 152 (VI) STERICHINDRANCETO PROTIODESILYLATION OFALKYLFERROCENES 153 4.7.2 BASE-CATALYSED PROTIODESILYLATION 154 4.8 PROTIODEGERMYLATION 156 4.8.1 ACID-CATALYSED PROTIODEGERMYLATION 156 4.8.2 BASE-CATALYSED PROTIODEGERMYLATION 158 4.9 PROTIODESTANNYLATION 158 4.9.1 ACID-CATALYSED PROTIODESTANNYLATION 158 4.9.2 BASE-CATALYSED PROTIODESTANNYLATION 161 4.10 PROTIODEPLUMBYLATION 163 4.11 PROTIODENITRATION 163 4.12 PROTIODESULPHONATION 164 4.13 PROTIODEHALOGENATION 165 4.14 PROTIODEPALLADIATION 167 X CONTENTS CHAPTER 5 METALLATION 173 5.1 LITHIATION 173 5.2 AURATION 175 5.3 MERCURIATION 175 5.3.1 MECHANISM 176 5.3.2 SUBSTITUENT EFFECTS 178 5.4 BORONATION 181 5.5 THALLIATION 181 5.6 SILYLATION 182 5.7 PLUMBYLATION 182 5.8 ANTIMONATION 183 5.9 TELLURIATION 184 5.10 RHODIATION 184 5.11 PALLADIATION 184 CHAPTER 6 REACTIONS INVOLVING ELECTROPHILIC CARBON 187 6.1 ALKYLATION 188 6.1.1 MECHANISM OF ALKYLATION BY ALKYL HALIDES 189 (I) FORMATION OF COMPLEXES 189 (II) REARRANGEMENTS 191 (III) KINETICS 196 (A) KINETIC EFFECT OF SOLVENTS 196 (B) STUDIES IN NITROBENZENE AND 1,2-DICHLOROETHANE . 197 (C) STUDIES IN NITROMETHANE 198 (D) STUDIES IN NON-POLAR SOLVENTS 200 6.1.2 MECHANISM OF ALKYLATION BY OTHER REAGENTS 201 (I) ALKYLATION BY ALCOHOLS 201 (II) ALKYLATION BY ALKENES 202 (III) ALKYLATION BY CYCLOALKANES 203 (IV) ALKYLATION BY ETHERS 203 (V) ALKYLATION BY ESTERS, ACIDS, ACID HALIDES, AND SULPHONES 204 (VI) ALKYLATION BY OTHER REAGENTS 205 (VII) ALKYLATION IN THE GAS PHASE 206 6.1.3 SUBSTITUENT EFFECTS 208 6.1.4 CYCLIALKYLATION 209 6.1.5 CLAISEN REARRANGEMENT 214 6.2 ARYLATION 214 6.3 AMINOALKYLATION 217 6.4 HYDROXYALKYLATION 217 6.5 ALKYLTHIOALKYLATION 218 6.6 HALOALKYLATION 219 6.7 FRIEDEL-CRAFTS ACYLATION 222 CONTENTS XI 6.7.1 MECHANISM OF ACYLATION BY ACYL HALIDES 222 (I) FORMATION OF C-COMPLEXES 222 (II) THE ELECTROPHILIC SPECIES 223 (III) KINETICS 224 (A) THE ORDER IN REAGENTS AND THEIR RELATIVE REACTIVITIES 224 (B) THE KINETIC EFFECT OF SOLVENTS 226 6.7.2 MECHANISM OF ACYLATION BY OTHER REAGENTS 227 (I) ACYLATION BY CARBOXYLIC ANHYDRIDES, ESTERS, AMIDES, AND ACIDS 227 (II) ACYLATION BY ACYLIUM SALTS 227 (III) ACYLATION BY KETENE 228 (IV) ACYLATION WITH PHOSGENE 228 (V) FORMYLATION 228 (VI) ACYLATION IN THE GAS PHASE 229 6.7.3 SUBSTITUENT EFFECTS 229 6.7.4 CYCLIACYLATION 236 6.7.5 FRIES REARRANGEMENT 237 6.8 FORMYLATION 238 6.8.1 GATTERMANN-KOCH REACTION 238 6.8.2 GATTERMANN REACTION 239 6.8.3 VILSMEIER-HAACK REACTION 239 6.8.4 FORMYLATION WITH DICHLOROMETHYL ALKYL ETHERS . . . . 240 6.8.5 FORMYLATION WITH FORMYL FLUORIDE 241 6.8.6 SUBSTITUENT EFFECTS IN FORMYLATION 242 6.9 THE HOESCH REACTION 242 6.10 CARBOXYLATION AND AMIDATION 243 6.11 CYANATION 245 6.12 THE KOLBE-SCHMITT AND REIMER-TIEMANN REACTIONS . . . . 246 CHAPTER 7 REACTIONS INVOLVING NITROGEN ELCCTROPHILES 256 7.1 AMINATION 256 7.2 DIAZONIUM COUPLING 258 7.3 NITROSATION 261 7.3.1 NITROSATION WITH NITROUS ACID 261 7.3.2 NITROSATION WITH NITROSONIUM COMPOUNDS 262 7.3.3 THE FISCHER-HEPP REARRANGEMENT 262 7.4 NITRATION 263 7.4.1 CONDITIONS OF NITRATION 263 (I) NITRATION BY NITRIC ACID 264 (II) NITRATION BY NITRIC ACID IN STRONG MINERAL ACIDS . . 265 (III) NITRATION BY NITRIC ACID IN ORGANIC SOLVENTS . . . . 268 (IV) NITRATION BY NITRIC ACID IN ACETIC ANHYDRIDE . . . . 269 XII CONTENTS (V) NITRATION BY ACYL NITRATES IN ORGANIC SOLVENTS . . . 271 (VI) NITRATION BY DINITROGEN TETROXIDE AND DINITROGEN PENTOXIDE 272 (VII) NITRATION BY NITRONIUM SALTS 273 (VIII) NITRATION BY NITROALKANES, ALKYL NITRATES, AND METAL NITRATES 274 (IX) NITRATION VIA NITROSATION 275 (A) THE ANTI-CATALYTIC EFFECT 275 (B) THE CATALYTIC EFFECT 276 (X) NITRATION WITH NITROCYCLOHEXADIENONES 277 (XI) NITRATION WITH PERNITRIC ACID AND NITRYL HALIDES . . 278 (XII) GAS-PHASE NITRATION 278 7.4.2 MECHANISM OF NITRATION 278 (I) ISOTOPE EFFECTS 278 (II) ELECTRON-TRANSFER MECHANISM 279 (III) IPSO SUBSTITUTION 280 7.4.3 SUBSTITUENT EFFECTS 284 (I) SIMPLE ALKYL SUBSTITUENTS 284 (II) BULKY ALKYL SUBSTITUENTS 287 (III) CYCLOALKYL SUBSTITUENTS 287 (IV) POLYALKYL SUBSTITUENTS 290 (V) CYCLIC ALKYL SUBSTITUENTS 291 (VI) SUBSTITUTED ALKYL GROUPS 291 (VII) SUBSTITUTED ALKENYL AND ALKYNYL GROUPS . . . . 293 (VIII) HALOGEN SUBSTITUENTS 293 (IX) POLYHALOGEN SUBSTITUENTS 296 (X) AMINES, ANILIDES, AND ETHERS 297 (XI) SUBSTITUENTS CONTAINING BORON AND SILICON . . . 301 (XII) POSITIVE POLES 302 (XIII) DIPOLAR SUBSTITUENTS 307 (XIV) POLYSUBSTITUTED AROMATICS 307 (XV) BIPHENYL AND DERIVATIVES 310 (XVI) POLYCYCLIC AROMATICS 311 (XVII) MISCELLANEOUS AROMATICS 313 7.5 NITRAMINE REARRANGEMENT 314 7.6 PHOSPHONATION 315 CHAPTER 8 OXYGEN, SULPHUR, AND SELENIUM ELECTROPHILES 327 8.1 HYDROXYLATION 327 8.1.1 HYDROXYLATION WITH ACIDIFIED HYDROGEN PEROXIDE . . . 327 8.1.2 HYDROXYLATION WITH PERACIDS 328 8.1.3 MISCELLANEOUS HYDROXYLATING REAGENTS 329 8.2 AROXYLATION 330 CONTENTS XLLL 8.3 BENZOOXYLATION AND ACETOXYLATION 330 8.4 SULPHONOXYLATION 331 8.5 SULPHENYLATION 332 8.6 THIOCYANATION 333 8.7 SULPHINYLATION 333 8.8 SULPHONYLATION 334 8.8.1 MECHANISM OF SULPHONYLATION 334 (I) SULPHONYLATION IN EXCESS SULPHONYL HALIDE . . . . 334 (II) SULPHONYLATION IN THE PRESENCE OF SOLVENTS . . . . 335 8.8.2 SUBSTITUENT EFFECTS 336 8.9 SULPHONATION 337 8.9.1 MECHANISM OF SULPHONATION 337 (I) SULPHONATION BY SULPHUR TRIOXIDE IN APROTIC SOLVENTS 338 (II) SULPHONATION BY SULPHURIC ACID 339 (III) SULPHONATION BY HALOSULPHONIC ACIDS 341 8.9.2 SUBSTITUENT EFFECTS 342 (I) ALKYL SUBSTITUENTS 342 (II) POLYALKYL AND CYCLIALKYL SUBSTITUENTS 343 (III) SUBSTITUTED ALKYL GROUPS 346 (IV) HALOGEN SUBSTITUENTS 347 (V) SULPHONIC ACIDS 348 (VI) BIPHENYL AND DERIVATIVES 349 (VII) HYDROXY, METHOXY, AND AMINO SUBSTITUENTS . . . 350 (VIII) POLYCYCLICS 351 (IX) ANNULENES AND FERROCENE 355 8.10 SELENOCYANATION 355 8.11 SELENYLATION 355 8.12 SELENONATION 356 CHAPTER 9 ELECTROPHILIC HALOGENATION 363 9.1 FLUORINATION 363 9.2 CHLORINATION 364 9.2.1 CHLORINATION BY HYPOCHLOROUS ACID, ITS ESTERS, AND ACETYL DERIVATIVE 365 (I) HYPOCHLOROUS ACID 365 (II) ESTERS OF HYPOCHLOROUS ACID 366 (III) THE ACETYL DERIVATIVE OF HYPOCHLOROUS ACID . . . . 366 9.2.2 CHLORINATION BY MOLECULAR CHLORINE 367 (I) CHLORINE 367 (II) IODOBENZENE DICHLORIDE 370 (III) N-CHLORAMINES AND AF-CHLOROAMIDES: THE ORTON REARRANGEMENT 370 (IV) CHLORINE IN THE PRESENCE OF A CATALYST 371 XIV CONTENTS 9.2.3 CHLORINATION WITH SULPHURYL CHLORIDE 372 9.2.4 CHLORINATION WITH METAL HALIDES 373 9.2.5 MISCELLANEOUS CHLORINATION METHODS . . . . . . . 374 9.3 BROMINATION 374 9.3.1 BROMINATION BY HYPOBROMOUS ACID AND ITS ACETYL DERIVATIVE 374 (I) HYPOBROMOUS ACID 374 (II) THE ACETYL DERIVATIVE OF HYPOBROMOUS ACID . . . . 376 9.3.2 BROMINATION BY MOLECULAR BROMINE 376 (I) BROMINE 377 (II) BROMINE IN THE PRESENCE OF A CATALYST 379 9.3.3 BROMINATION BY TRIBROMIDE ION 380 9.3.4 BROMINATION BY BROMINE PHOSPHATE 380 9.3.5 BROMINATION BY BROMINE SULPHATE 380 9.3.6 BROMINATION BY A-BROMOKETONES AND ALUMINIUM HALIDES 381 9.3.7 BROMINATION BY IV-BROMOAMIDES 381 9.3.8 BROMINATION WITH INTERHALOGENS 382 9.3.9 BROMINATION WITH BROMOCYCLOHEXADIENONES 382 9.3.10 ISOTOPE EFFECTS IN BROMINATION BY BROMINE 382 9.3.11 GAS-PHASE BROMINATION 384 9.3.12 BASE-CATALYSED BROMINATION 384 9.4 IODINATION 385 9.4.1 IODINATION WITH IODINE 385 9.4.2 IODINATION WITH IODINE AND AN OXIDIZING AGENT.... 386 9.4.3 IODINATION WITH IODINE ACETATE AND IODINE TRIFLUORO- ACETATE 387 9.4.4 IODINATION BY IODINE MONOCHLORIDE 388 9.5 ASTATINATION 388 9.6 SUBSTITUENT EFFECTS IN HALOGENATION 388 9.6.1 ALKYL, CYCLIC ALKYL, AND SUBSTITUTED ALKYL GROUPS... 388 9.6.2 AMINES, ANILIDES, ETHERS, AND ESTERS 392 9.6.3 DEACTIVATING SUBSTITUENTS 394 9.6.4 SUBSTITUENTS CONTAINING BORON AND SILICON 396 9.6.5 POLYSUBSTITUTED BENZENES 397 9.6.6 BIPHENYL AND ITS DERIVATIVES 401 9.6.7 NAPHTHALENE AND POLYCYCLIC COMPOUNDS 404 CHAPTER 10 THE REPLACEMENT OF A SUBSTITUENT X BY A SUBSTITUENT Y . . 413 10.1 SILYLDELITHIATION 414 10.2 HALODEAURATION 415 10.3 NITROSODEMAGNESIATION 415 10.4 MERCURIDEMERCURIATION 415 10.5 PLUMBYLDEMERCURIATION 416 CONTENTS XV 10.6 NITROSODEMERCURIATION 417 10.7 HALODEMERCURIATION 417 10.8 SULPHODEMERCURIATION 417 10.9 PLUMBYLDETHALLIATION 418 10.10 NITROSODETHALLIATION 418 10.11 NITRODETHALLIATION 418 10.12 HYDROXYDETHALLIATION 419 10.13 IODODETHALLIATION 419 10.14 MERCURIDEBORONATION 419 10.15 THALLIODEBORONATION 420 10.16 NITRODEBORONATION 420 10.17 HYDROXYDEBORONATION 420 10.18 HALODEBORONATION 421 10.19 ALKYLDEALKYLATION 422 10.20 ACYLDEALKYLATION 422 10.21 DIAZODEALKYLATION 423 10.22 NITROSODEALKYLATION 423 10.23 NITRODEALKYLATION 423 10.24 SULPHODEALKYLATION 425 10.25 HALODEALKYLATION 425 10.26 DIAZODEACYLATION 426 10.27 NITROSODEACYLATION AND NITROSODECARBOXYLATION 427 10.28 NITRODEACYLATION AND NITRODECARBOXYLATION 427 10.29 SULPHODEACYLATION 428 10.30 HALODEACYLATION AND HALODECARBOXYLATION 428 10.31 MERCURIDESILYLATION 430 10.32 THALLIODESILYLATION 432 10.33 ALKYLDESILYLATION 432 10.34 ACYLDESILYLATION 433 10.35 DIAZODESILYLATION 434 10.36 NITROSODESILYLATION AND NITRODESILYLATION 434 10.37 SULPHODESILYLATION 435 10.38 HALODESILYLATION 435 10.39 MERCURIDESTANNYLATION 437 10.40 ACYLDESTANNYLATION 438 10.41 NITROSODESTANNYLATION 438 10.42 HALODESTANNYLATION 438 10.43 IODODEPLUMBYLATION 440 10.44 DIAZONIUM EXCHANGE 440 10.45 NITROSODEARYLAZONIATION 441 10.46 NITRODEARYLAZONIATION 441 10.47 BROMODEARYLAZONIATION 441 10.48 DIAZODENITRATION 441 XVI CONTENTS 10.49 NITRODENITRATION (NITRO EXCHANGE) 442 10.50 NITRODEPHOSPHONATION 442 10.51 NITRODETHIOPHENYLATION 442 10.52 DIAZODESULPHONATION 442 10.53 NITRODESULPHONATION 443 10.54 HALODESULPHONATION 443 10.55 HALODETELLURIATION 445 10.56 LITHIODEBROMINATION 445 10.57 ALKYLDEBROMINATION 445 10.58 ACYLDEHALOGENATION 446 10.59 DIAZODEHALOGENATION 446 10.60 NITROSO- OR NITRODEHALOGENATION 446 10.61 PHOSPHONODEBROMINATION 448 10.62 SULPHODEIODINATION 448 10.63 HALOGEN EXCHANGE 449 CHAPTER 11 QUANTITATIVE EVALUATION OF ELECTRONIC AND STERIC EFFECTS IN ELECTROPHILIC AROMATIC SUBSTITUTION 455 11.1 QUANTITATIVE TREATMENTS OF STRUCTURE-REACTIVITY RELATIONSHIPS . 455 11.1.1 SELECTIVITY 470 11.1.2 EXTENSIONS OF THE HAMMETT EQUATION 470 11.1.3 THE YUKAWA-TSUNO EQUATION 471 11.1.4 THE ELECTRONIC EFFECT OF BULKY GROUPS: STERIC HINDRANCE TO SOLVATION 477 11.1.5 THE REACTIVITY OF THE AROMATIC: THE REACTIVITY-SELECTIVITY PRINCIPLE 479 11.1.6 THEORETICAL CALCULATIONS OF AROMATIC REACTIVITIES . . . 481 11.2 THE ORTHO:PARA RATIO 483 11.2.1 SELECTIVITY 483 11.2.2 STERIC HINDRANCE AND STERIC ACCELERATION 483 11.2.3 INTERACTION BETWEEN SUBSTITUENT AND REAGENT 484 11.2.4 ELECTRONIC EFFECTS 485 11.2.5 THE EFFECTS OF SOLVENT AND TEMPERATURE 490 11.3 STRAIN EFFECTS 490 11.4 IPSO FACTORS 491 INDEX 497
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discipline	Chemie / Pharmazie Chemie
format	Book
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id	DE-604.BV003667437
illustrated	Illustrated
indexdate	2024-07-09T16:03:34Z
institution	BVB
isbn	0471924822
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-002335300
oclc_num	20264315
open_access_boolean
owner	DE-12 DE-355 DE-BY-UBR DE-91G DE-BY-TUM DE-20 DE-11
owner_facet	DE-12 DE-355 DE-BY-UBR DE-91G DE-BY-TUM DE-20 DE-11
physical	XVI, 513 S. graph. Darst.
publishDate	1990
publishDateSearch	1990
publishDateSort	1990
publisher	Wiley
record_format	marc
spelling	Taylor, Roger Verfasser aut Electrophilic aromatic substitution R. Taylor Chichester [u.a.] Wiley 1990 XVI, 513 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Aromatic compounds Substitution reactions Elektrophile Substitution (DE-588)4151949-8 gnd rswk-swf Aromatische Verbindungen (DE-588)4129374-5 gnd rswk-swf Aromaten (DE-588)4143049-9 gnd rswk-swf Elektrophile Substitution (DE-588)4151949-8 s Aromatische Verbindungen (DE-588)4129374-5 s DE-604 Aromaten (DE-588)4143049-9 s GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=002335300&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Taylor, Roger Electrophilic aromatic substitution Aromatic compounds Substitution reactions Elektrophile Substitution (DE-588)4151949-8 gnd Aromatische Verbindungen (DE-588)4129374-5 gnd Aromaten (DE-588)4143049-9 gnd
subject_GND	(DE-588)4151949-8 (DE-588)4129374-5 (DE-588)4143049-9
title	Electrophilic aromatic substitution
title_auth	Electrophilic aromatic substitution
title_exact_search	Electrophilic aromatic substitution
title_full	Electrophilic aromatic substitution R. Taylor
title_fullStr	Electrophilic aromatic substitution R. Taylor
title_full_unstemmed	Electrophilic aromatic substitution R. Taylor
title_short	Electrophilic aromatic substitution
title_sort	electrophilic aromatic substitution
topic	Aromatic compounds Substitution reactions Elektrophile Substitution (DE-588)4151949-8 gnd Aromatische Verbindungen (DE-588)4129374-5 gnd Aromaten (DE-588)4143049-9 gnd
topic_facet	Aromatic compounds Substitution reactions Elektrophile Substitution Aromatische Verbindungen Aromaten
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=002335300&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT taylorroger electrophilicaromaticsubstitution

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