Category:Rearrangement reactions
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This category is part of a classification scheme based on the Royal Society of Chemistry Reaction Names Ontology, compiled by Colin Bachelor, Celia Gitterman and David Barden. |
organic reactions where the carbon skeleton of a molecule is rearranged to give a structural isomer of the original molecule | |||||
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Subcategories
This category has the following 87 subcategories, out of 87 total.
1
- 1,2-shift (1 P, 10 F)
A
- Alpha-ketol rearrangement (12 F)
- Amadori rearrangement (10 F)
- Arbuzov reaction (19 F)
- Arndt–Eistert reaction (21 F)
- Aza-Cope rearrangements (26 F)
B
- Baeyer–Villiger oxidation (55 F)
- Bamberger rearrangement (11 F)
- Beckmann rearrangement (52 F)
- Benzidine rearrangement (7 F)
- Benzilic acid rearrangement (7 F)
- Bergman cyclization (26 F)
- Boekelheide reaction (18 F)
C
- Carroll rearrangement (12 F)
- Chan rearrangement (5 F)
- Chapman rearrangement (8 F)
- Cope rearrangement (102 F)
- Cornforth rearrangement (4 F)
- Criegee rearrangement (15 F)
D
- De Mayo reaction (12 F)
- Degenerate rearrangement (5 F)
- Demjanov rearrangement (16 F)
- Di-pi-methane rearrangement (7 F)
- Dienone–phenol rearrangement (15 F)
- Dimroth rearrangement (8 F)
- Doyle–Kirmse reaction (2 F)
F
- Favorskii rearrangement (35 F)
- Ferrier carbocyclization (8 F)
- Ferrier rearrangement (13 F)
- Fries rearrangement (14 F)
- Fujimoto-Belleau reaction (5 F)
G
- Gabriel-Colman rearrangement (11 F)
H
- Hayashi rearrangement (3 F)
- Heine reaction (4 F)
- Hofmann rearrangement (31 F)
- Hooker reaction (8 F)
J
- Jacobsen rearrangement (3 F)
K
- Krische allylation (7 F)
L
- Lossen rearrangement (8 F)
M
- McLafferty rearrangement (9 F)
- Meinwald rearrangement (5 F)
- Meisenheimer rearrangement (6 F)
- Mislow-Evans rearrangement (3 F)
N
- Nametkin rearrangement (2 F)
- Nazarov reaction (36 F)
- Neber rearrangement (6 F)
- Newman-Kwart rearrangement (8 F)
O
- Overman rearrangement (14 F)
- Oxy-Cope rearrangement (10 F)
P
- Payne rearrangement (19 F)
- Perkin rearrangement (1 F)
- Piancatelli rearrangement (8 F)
- Pinacol rearrangement (17 F)
- Polonovski reaction (4 F)
- Pummerer rearrangement (8 F)
S
- Schmidt reaction (9 F)
- Stevens rearrangement (15 F)
- Stieglitz rearrangement (9 F)
T
- Tafel rearrangement (3 F)
- Tiffeneau-Demjanov rearrangement (10 F)
W
- Wagner-Meerwein rearrangement (26 F)
- Walk rearrangements (5 F)
- Wallach rearrangement (7 F)
- Willgerodt rearrangement (20 F)
- Wittig rearrangements (28 F)
Media in category "Rearrangement reactions"
The following 200 files are in this category, out of 268 total.
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01 MechanisticDevelopment Trost.png 2,047 × 638; 73 KB
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02 MechanisticDevelopment Corey.png 2,047 × 396; 41 KB
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03 MechanisticDevelopment Simpson.png 2,046 × 316; 28 KB
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04 MechanisticDevelopment Paquette.png 2,047 × 359; 34 KB
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05 MechanisticDevelopment Brown&Hudlicky.png 2,047 × 643; 69 KB
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06 MechanisticDevelopment Danheiser.png 2,046 × 299; 24 KB
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07 MechanisticDevelopment Larsen.png 2,047 × 364; 44 KB
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08 MechanisticDevelopment Hudlicky.png 2,046 × 876; 96 KB
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1 History Neureiter.png 928 × 349; 28 KB
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1,5alkyl.png 1,573 × 890; 30 KB
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1,5alkylfixed.png 1,537 × 391; 16 KB
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1,5alkyrearrangement.png 1,574 × 890; 30 KB
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1,5hantarafacial.png 2,074 × 594; 26 KB
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1,5hantarafacialfixed.png 1,582 × 406; 14 KB
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1,5hydridecyclic.png 1,335 × 431; 14 KB
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1,5hydridecyclicfixed.png 675 × 294; 7 KB
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1. Thermal TCNE 5+2.png 1,584 × 312; 47 KB
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2 History Vogel.png 924 × 940; 91 KB
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2 Piers Zizaene.png 2,050 × 461; 51 KB
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23Scope4.png 607 × 167; 23 KB
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23Scope5.png 447 × 154; 18 KB
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3 History Cloke.png 924 × 597; 47 KB
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3 Triquinanes Hudlicky.png 2,050 × 1,524; 208 KB
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4 Paquette vetispirene.png 2,050 × 573; 76 KB
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5 Corey Antheridiogen.png 2,050 × 618; 97 KB
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6 Njardarson Biotin&Plavix.png 2,050 × 1,094; 148 KB
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7 Majetich Salviasperanol.png 2,050 × 580; 96 KB
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9,10-dihydrophenanthren-9-ol.png 687 × 212; 14 KB
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A E startAnimGif.gif 377 × 185; 2.07 MB
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Acrolein dimer zu Cyclopentanon.svg 226 × 88; 11 KB
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Adamantane synthesis.png 5,569 × 1,069; 23 KB
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Alkene TFPAA-BF3.png 1,846 × 449; 45 KB
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Allen-Millar-Trippett-omlegging.png 1,022 × 265; 12 KB
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Allylic rearrangement reaction.svg 421 × 92; 7 KB
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AllylicRearrangementReaction.png 941 × 111; 2 KB
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Amadori-rearrangement.svg 512 × 157; 8 KB
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Anti WH dimethylbicycloheptene.png 1,552 × 413; 33 KB
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Aromatic rearrangement.gif 290 × 98; 1 KB
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Automerization of sesquiterpene-esque azulene.png 4,481 × 1,330; 262 KB
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Aza cope aza prins final.tiff 431 × 313; 44 KB
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Aza cope prins final.tiff 382 × 254; 33 KB
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Aza cope vs aza prins.tiff 431 × 286; 38 KB
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Aza-di-p-methane rearrangement.png 1,621 × 589; 13 KB
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Aza-prins scheme.tiff 504 × 169; 15 KB
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AzaCopeMannich generic final.tiff 439 × 315; 43 KB
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AzaCopeMannich generic.tiff 326 × 146; 18 KB
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AziridineAllylicRearrangement.png 991 × 775; 12 KB
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BanertCascade.png 1,799 × 947; 34 KB
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Barr to Semibullvalene Mech.gif 548 × 248; 7 KB
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Beispiel-Seite001 Graebe-Ullmann.svg 1,166 × 245; 20 KB
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Beispiel-Seite001.svg 1,073 × 245; 15 KB
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Benson-Disproportionation-rxn.png 594 × 100; 4 KB
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BenzidineSynthesis.png 1,394 × 299; 9 KB
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Benzilic Acid Rearrangement Mechanism.png 984 × 441; 28 KB
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Black-Umlagerung MV10.svg 1,717 × 795; 42 KB
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Black-Umlagerung MV6.svg 1,701 × 814; 32 KB
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Black-Umlagerung MV8.svg 1,717 × 778; 41 KB
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Black-Umlagerung Ü2V1.svg 1,168 × 312; 14 KB
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Black-Umlagerung ÜV4.svg 1,168 × 391; 14 KB
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C6(CH3)6 (SbF6)2 synthesis.png 2,441 × 473; 66 KB
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Carbocation rearrangement.png 868 × 300; 9 KB
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Chan rearrangement mechanism.svg 400 × 226; 70 KB
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Chemical reaction - Nimbin to Isonimbin.png 618 × 275; 71 KB
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Chorismate rearrangement.png 2,139 × 817; 38 KB
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Chrysanthenone synthesis.png 389 × 153; 3 KB
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Citraconsäureanhydrid aus Itaconsäureanhydrid.svg 282 × 69; 20 KB
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Claesenrearrangement.png 361 × 144; 2 KB
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Cycloheptane rearrangement to methylcyclohexane.PNG 839 × 239; 3 KB
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Cycloheptatriene-Norcaradiene Rearrangement perspective.png 1,789 × 566; 21 KB
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Cycloheptatriene-Norcaradiene Rearrangement.png 3,160 × 1,141; 17 KB
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Cycloprapane derivatives - Diaza-Cope rearrangement.svg 363 × 110; 40 KB
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Cyclopropanol Isomerization V1.svg 364 × 165; 17 KB
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Cyclopropylmethanol to cyclobutanol.svg 221 × 56; 27 KB
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Darstellung von Sultonen durch Ringverkleinerung.svg 512 × 95; 10 KB
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Desmosterol synthesis.JPG 1,650 × 466; 68 KB
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DETOSU Bildungsreaktion.svg 442 × 58; 23 KB
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Di-p-methane mechanism.png 1,057 × 204; 8 KB
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Di-p-methane rearrangement in cycles.png 1,296 × 473; 14 KB
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Di-p-methane rearrangement of allylbenzene.png 1,283 × 195; 7 KB
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Di-p-methane rearrangement regioselectivity.png 1,434 × 597; 18 KB
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Di-p-methane rearrangement scheme.png 523 × 202; 4 KB
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Di-p-methane rearrangement to 1,1,3-triphenylcyclopropane.png 1,010 × 215; 6 KB
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Di-pi-methane.png 560 × 168; 4 KB
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Diaza-Cope rearrangement - Diazasemibullvalene.svg 302 × 71; 23 KB
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Diaza-Cope rearrangement.svg 252 × 70; 36 KB
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Dienol benzene rearrangement.png 800 × 204; 22 KB
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Dienol Benzene Rearrangement.png 1,256 × 726; 68 KB
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Dimethylcyclobutene ringopening mechanism.svg 511 × 114; 64 KB
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Dimorth Umlagerung Mecha.svg 595 × 626; 66 KB
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Dimorth Umlagerung Übersicht.svg 561 × 178; 11 KB
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Diradical vs concerted aza cope transition state.tiff 373 × 208; 17 KB
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Double Lawson reaction.png 1,052 × 767; 20 KB
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Dowd-Beckwith-Ringerweiterung ÜV2.svg 5,867 × 2,237; 123 KB
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DV Epoxide Mechanism Rearrangements.png 2,246 × 1,112; 496 KB
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Dyotropic rearrangement paquette 1991.svg 345 × 145; 35 KB
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Dyotropic rearrangement.svg 335 × 171; 47 KB
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Electrocyclic reaction Matsuya 2006.png 950 × 224; 6 KB
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ElectrocyclicRxn.png 1,305 × 307; 11 KB
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ElectrocyclizationInEndrianicAcidSynth.svg 498 × 293; 102 KB
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ElectrophilicAllylShift.png 1,057 × 551; 12 KB
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Enediyne addition reaction mechanism.jpg 607 × 505; 32 KB
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Esquema 1 Rearranjo sigmatrópico.jpg 376 × 161; 16 KB
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Esquema 1sdfsdfsdf.png 256 × 109; 3 KB
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Estado de transição de uma reação SN2.gif 1,064 × 580; 3.31 MB
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Faworski-Umlagerung zur Synthese von Cortisol.svg 670 × 325; 36 KB
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Fenonio.png 948 × 435; 116 KB
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Fig2. Concerted Mechanism.png 507 × 144; 16 KB
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Fig5. Biradical.png 351 × 104; 4 KB
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Fig7.Intramolecular Ene.png 351 × 346; 27 KB
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Fig8.LewisAcidReaction.png 481 × 199; 7 KB
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Fig9.Reaction with Lewis acids.png 528 × 211; 25 KB
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Figura 1. Rearranjo suprafacial e antarafacial.png 544 × 168; 21 KB
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Figura 2 Migração de H antarafacial e suprafacial.png 541 × 166; 22 KB
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Figura 3. Migração de carbono com apenas um de seus lobos.png 346 × 215; 16 KB
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Figura 4. Migração de carbono com seus dois lobos .png 346 × 173; 16 KB
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Figure10ene.png 564 × 210; 7 KB
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Figure11ene.png 624 × 305; 24 KB
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Figure12ene.png 624 × 296; 36 KB
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Figure13ene.png 787 × 184; 32 KB
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Figure1newene.png 381 × 185; 15 KB
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Figure7ene.png 639 × 441; 35 KB
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Figure8ene.png 641 × 196; 16 KB
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Figure9ene.png 641 × 264; 22 KB
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First oxa-di-p-methane rearrangement.png 834 × 261; 6 KB
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Formation of decaphenylferrocene from its linkage isomer.svg 363 × 149; 47 KB
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Gabriel-Colman Overall Reaction.jpg 568 × 138; 12 KB
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Gabriel-Colman Rearrangement Example 1.jpg 623 × 172; 17 KB
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Gabriel-Colman Rearrangement Example 2.jpg 570 × 178; 14 KB
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General Contraction Expansion.jpg 355 × 72; 5 KB
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General scheme of anionotropic rearrangement.svg 422 × 112; 6 KB
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General scheme of cationotropic rearrangement.svg 850 × 227; 6 KB
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General scheme of prototropic rearrangement.svg 850 × 227; 5 KB
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General scheme of radical rearrangement.svg 850 × 227; 5 KB
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General scheme rearrangement svg.png 365 × 63; 2 KB
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General scheme rearrangement.svg 365 × 63; 22 KB
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Generalized Wolf rearrangement mechanism.jpg 681 × 110; 10 KB
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Grhuile.png 446 × 376; 59 KB
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Halo3pentanon.pdf 1,239 × 1,754; 13 KB
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Hayashi übersichtsreaktion.svg 561 × 181; 21 KB
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Hemiaminalformationinsaxitoxinsynthesis.png 1,031 × 735; 26 KB
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Hexamethyl Dewar epoxidation-rearrangement.png 3,210 × 605; 96 KB
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Heyns-Umlagerung.svg 1,821 × 490; 45 KB
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History Neureiter 1.png 928 × 349; 28 KB
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Homoallyl-Umlagerung V2.svg 438 × 266; 12 KB
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HypervalentiodineRingContraction.png 768 × 172; 3 KB
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IsochorismatePyruvateLyase.svg 449 × 140; 56 KB
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Isochromenone aus 2-Carboxybenzaldehyd+arom. Amin+KCN.svg 560 × 297; 96 KB
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Isotopo ncinetico.png 985 × 362; 95 KB
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Jacobsen-Reaktion Umlagerung V1.svg 739 × 186; 19 KB
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Jacobsen-Reaktion Übersicht Part 2 V2.svg 761 × 186; 24 KB
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Ketoperoxide-Rearrangement V1.svg 634 × 181; 11 KB
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Known von Auwers Rearrangements.png 1,948 × 848; 153 KB
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Kornblum-DeLaMare-Umlagerung MV5.svg 1,714 × 657; 35 KB
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Kornblum-DeLaMare-Umlagerung Teil 1 RMV3.svg 1,668 × 211; 20 KB
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Kornblum-DeLaMare-Umlagerung ÜV4.svg 1,012 × 206; 9 KB
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KowalskiEsterHomologation.png 6,011 × 1,163; 59 KB
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Lander-Umlagerung Reaktionsmechanismus VAB4.svg 1,454 × 660; 78 KB
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Lander-Umlagerung Übersichtsreaktion V3a.svg 748 × 194; 24 KB
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Lawton reaction.png 1,068 × 747; 16 KB
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M. Sakamoto.jpg 397 × 157; 7 KB
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Mechanism 01.png 1,392 × 220; 30 KB
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Mechanism 02.png 2,069 × 442; 79 KB
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Mechanism 03.png 1,311 × 724; 80 KB
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Mechanism 04 05.png 1,425 × 1,881; 193 KB
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Mechanism Beckmann rearrangement.svg 647 × 91; 55 KB
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Meinwald-Umlagerung Mechanismus.svg 1,101 × 280; 20 KB
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Meinwald-Umlagerung Reaktionsmechanismus.svg 1,101 × 226; 19 KB
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Metal-ion-catalyzed-sigma-bond-rearrangement.png 1,349 × 442; 7 KB
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Methods of cyclopropane ring opening.jpg 350 × 223; 10 KB
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Morin-Umlagerung MV2.svg 2,168 × 1,456; 79 KB
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Morin-Umlagerung MV3.svg 1,299 × 873; 72 KB
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Morin-Umlagerung ÜV4.svg 694 × 233; 19 KB
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Mumm Rearrangement.png 721 × 220; 4 KB
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Mumm-omlegging.png 1,401 × 490; 12 KB
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N-acyl-N-(leaving-group)ylamide-anion-anion-rearrangement-mechanism-2D.png 2,100 × 463; 45 KB
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N-acyl-N-(leaving-group)ylamide-anion-rearrangement-2D-straight-arrow.png 1,267 × 967; 25 KB
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N-acyl-N-(leaving-group)ylamide-anion-rearrangement-2D.png 1,267 × 968; 28 KB
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Naphthalene-fulvalene fullcolor.png 1,609 × 343; 54 KB
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Neosporol epoxidation-rearrangement.png 4,499 × 748; 185 KB
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Nirtones.Acylation+Rearrangement.svg 598 × 282; 58 KB
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Nitrilimine origin.png 651 × 114; 2 KB
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Ortho Rearrangement.jpg 406 × 109; 8 KB
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Orton-Umlagerung-Übersicht1-V1-Seite001.svg 380 × 86; 12 KB
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Oxa-di-p-methane rearrangement mechanism.png 1,118 × 499; 13 KB
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Oxyallyl korr.svg 744 × 416; 20 KB
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Patchoulene Oxide Synthesis.png 1,961 × 741; 82 KB
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Payne-Umlagerung Reaktionsmechanismus V4b.svg 1,340 × 218; 39 KB
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Payne-Umlagerung Übersichtsreaktion V2.svg 621 × 156; 12 KB
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PCC rearrangement3.png 2,142 × 446; 23 KB
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Pentadiene Sigmatropic Rearrangement.png 781 × 200; 10 KB
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Pericyclic.png 1,137 × 449; 12 KB
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Phosphoniumylide rearrangement.png 661 × 410; 12 KB
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Produção do Fosgênio de oxima pela Hidrogenomerização.png 983 × 420; 18 KB
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Proposed mechanism of isomerization of azulene to naphthalene 1.png 7,050 × 735; 305 KB
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PSM V72 D136 Chemical formula.png 973 × 172; 10 KB
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Pyrene Stone-Wales.png 1,609 × 767; 94 KB
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QuinineNitrateMechanism.png 996 × 578; 13 KB