List of organic reactions

0-9

• 1,2-Wittig rearrangement
• 1,3-Dipolar cycloaddition
• 2,3-Wittig rearrangement

A

• Acetalisation
• Acetoacetic ester condensation
• Achmatowicz reaction
• Acylation
• Acyloin condensation
• Adams' catalyst
• Adams decarboxylation
• Adkins catalyst
• Adkins–Peterson reaction
• Akabori amino acid reaction
• Alcohol oxidation
• Alder ene reaction
• Alder–Stein rules
• Aldol addition
• Aldol condensation
• Algar–Flynn–Oyamada reaction
• Alkylimino-de-oxo-bisubstitution
• Alkyne trimerisation
• Alkyne zipper reaction
• Allan–Robinson reaction
• Allylic rearrangement
• Amadori rearrangement
• Amine alkylation
• Angeli–Rimini reaction
• Andrussov oxidation
• Appel reaction
• Arbuzov reaction, Arbusow reaction
• Arens–Van Dorp synthesis, Isler modification
• Aromatic nitration
• Arndt–Eistert synthesis
• Aston–Greenburg rearrangement
• Auwers synthesis
• Aza-Cope rearrangement
• Azo coupling

B

• Baeyer–Drewson indigo synthesis
• Baeyer–Villiger oxidation, Baeyer–Villiger rearrangement
• Bakeland process (Bakelite)
• Baker–Venkataraman rearrangement, Baker–Venkataraman transformation
• Baldwin's rules
• Bally–Scholl synthesis
• Balz–Schiemann reaction
• Bamberger rearrangement
• Bamberger triazine synthesis
• Bamford–Stevens reaction
• Barbier reaction
• Barbier–Wieland degradation
• Bardhan–Sengupta phenanthrene synthesis
• Barfoed's test
• Bargellini reaction
• Bartoli indole synthesis, Bartoli reaction
• Barton decarboxylation
• Barton reaction
• Barton–Kellogg reaction
• Barton–McCombie reaction, Barton deoxygenation
• Barton-Zard Synthesis
• Barton vinyl iodine procedure
• Baudisch reaction
• Bayer test
• Baylis–Hillman reaction
• Bechamp reaction
• Bechamp reduction
• Beckmann fragmentation
• Beckmann rearrangement
• Bellus–Claisen rearrangement
• Belousov–Zhabotinsky reaction
• Benary reaction
• Benedict's reagent
• Benkeser reaction
• Benzidine rearrangement
• Benzilic acid rearrangement
• Benzoin condensation
• Bergman cyclization
• Bergmann azlactone peptide synthesis
• Bergmann degradation
• Bergmann–Zervas carbobenzoxy method
• Bernthsen acridine synthesis
• Bestmann's reagent
• Betti reaction
• Biginelli pyrimidine synthesis
• Biginelli reaction
• Bingel reaction
• Birch reduction
• Bischler–Möhlau indole synthesis
• Bischler–Napieralski reaction
• Biuret test
• Blaise ketone synthesis
• Blaise reaction
• Blanc reaction
• Blanc chloromethylation
• Blum–Ittah aziridine synthesis
• Bodroux reaction
• Bodroux–Chichibabin aldehyde synthesis
• Bogert–Cook synthesis
• Bohlmann-Rahtz pyridine synthesis
• Bohn–Schmidt reaction
• Boord olefin synthesis
• Borodin reaction
• Borsche–Drechsel cyclization
• Bosch–Meiser urea process
• Bosch reaction
• Bouveault aldehyde synthesis
• Bouveault–Blanc reduction
• Boyland–Sims oxidation
• Boyer Reaction
• Bredt's rule
• Brook rearrangement
• Brown hydroboration
• Bucherer carbazole synthesis
• Bucherer reaction
• Bucherer–Bergs reaction
• Buchner ring enlargement
• Büchner–Curtius–Schlotterbeck reaction
• Buchwald–Hartwig amination
• Bunnett reaction
• Burgess reagent

C

• Cadiot–Chodkiewicz coupling
• Cadogan-Sundberg indole synthesis
• Camps quinoline synthesis
• Cannizzaro reaction
• Carbohydrate acetalisation
• Carbonyl reduction
• Carbonylation
• Carbylamine reaction
• Carroll reaction
• Castro–Stephens coupling
• Catalytic reforming
• Catellani Reaction
• CBS reduction
• Chan–Lam coupling
• Chapman rearrangement
• Cheletropic reaction
• Chichibabin pyridine synthesis
• Chichibabin reaction
• Chiral pool synthesis
• Chugaev elimination
• Ciamician–Dennstedt rearrangement
• Claisen condensation
• Claisen rearrangement
• Claisen–Schmidt condensation
• Clemmensen reduction
• Collins reagent
• Combes quinoline synthesis
• Conia reaction
• Conrad–Limpach synthesis
• Cook–Heilbron thiazole synthesis
• Cope elimination
• Cope rearrangement
• Corey reagent
• Corey–Bakshi–Shibata reduction
• Corey–Fuchs reaction
• Corey–Gilman–Ganem oxidation
• Corey–Kim oxidation
• Corey-Nicolaou macrolactonization
• Corey–Posner, Whitesides–House reaction
• Corey-Seebach reaction
• Corey–Winter olefin synthesis
• Corey–Winter reaction
• Cornforth rearrangement
• Coupling reaction
• Crabbé reaction
• Craig method
• Cram's rule of asymmetric induction
• Creighton process
• Criegee reaction
• Criegee rearrangement
• Cross metathesis
• Crum Brown–Gibson rule
• Curtius degradation
• Curtius rearrangement, Curtius reaction
• Cyanohydrin reaction

D

• Dakin reaction (aka Dakin oxidation)
• Dakin–West reaction
• Danheiser annulation
• Danheiser benzannulation
• Darapsky degradation
• Darzens condensation, Darzens–Claisen reaction, Glycidic ester condensation
• Darzens halogenation
• Darzens synthesis of unsaturated ketones
• Darzens tetralin synthesis
• Davis' reagent, Davis oxidation
• Davis–Beirut reaction
• De Kimpe aziridine synthesis
• Dehydration reaction
• Dehydrogenation
• Delépine reaction
• DeMayo reaction
• Demjanov rearrangement
• Demjanow desamination
• Dess–Martin oxidation
• Diazoalkane 1,3-dipolar cycloaddition
• Diazotisation
• DIBAL-H selective reduction
• Dieckmann condensation
• Dieckmann reaction
• Diels–Alder reaction
• Diels–Reese reaction
• Dienol–benzene rearrangement
• Dienone–phenol rearrangement
• Dimroth rearrangement
• Di-π-methane rearrangement
• Directed ortho metalation
• Doebner modification
• Doebner reaction
• Doebner–Miller reaction, Beyer method for quinolines
• Doering–LaFlamme carbon chain extension
• Dötz reaction
• Dowd–Beckwith ring expansion reaction
• Duff reaction
• Dutt–Wormall reaction
• Dyotropic reaction

E

• E1cB elimination reaction
• Eder reaction
• Edman degradation
• Eglinton reaction
• Ehrlich–Sachs reaction
• Einhorn variant
• Einhorn–Brunner reaction
• Elbs persulfate oxidation
• Elbs reaction
• Electrochemical fluorination
• Electrocyclic reaction
• Electrophilic halogenation
• Electrophilic amination
• Elimination reaction
• Emde degradation
• Emmert reaction
• Enders SAMP/RAMP hydrazone-alkylation reaction
• Ene reaction
• Enyne metathesis
• Epoxidation
• Erlenmeyer synthesis, Azlactone synthesis
• Erlenmeyer–Plöchl azlactone and amino-acid synthesis
• Eschenmoser fragmentation
• Eschenmoser sulfide contraction
• Eschweiler–Clarke reaction
• Ester pyrolysis
• Ether cleavage
• Étard reaction
• Evans aldol
• Evans–Saksena reduction
• Evans–Tishchenko reaction

F

• Favorskii reaction
• Favorskii rearrangement
• Favorskii–Babayan synthesis
• Fehling test
• Feist–Benary synthesis
• Fenton reaction
• Ferrario reaction
• Ferrier carbocyclization
• Ferrier rearrangement
• Fétizon oxidation
• Fiesselmann thiophene synthesis
• Finkelstein reaction
• Fischer indole synthesis
• Fischer oxazole synthesis
• Fischer peptide synthesis
• Fischer phenylhydrazine and oxazone reaction
• Fischer glycosidation
• Fischer–Hepp rearrangement
• Fischer–Speier esterification
• Fischer Tropsch synthesis
• Fleming–Tamao oxidation
• Flood reaction
• Folin–Ciocalteu reagent
• Formox process
• Forster reaction
• Forster–Decker method
• Fowler process
• Franchimont reaction
• Frankland synthesis
• Frankland–Duppa reaction
• Fráter–Seebach alkylation
• Free radical halogenation
• Freund reaction
• Friedel–Crafts acylation
• Friedel–Crafts alkylation
• Friedländer synthesis
• Fries rearrangement
• Fritsch–Buttenberg–Wiechell rearrangement
• Fujimoto–Belleau reaction
• Fujiwara–Moritani reaction
• Fukuyama coupling
• Fukuyama indole synthesis
• Fukuyama reduction

G

• Gabriel ethylenimine method
• Gabriel synthesis
• Gabriel–Colman rearrangement, Gabriel isoquinoline synthesis
• Gallagher–Hollander degradation
• Gassman indole synthesis
• Gastaldi synthesis
• Gattermann aldehyde synthesis
• Gattermann Koch reaction
• Gattermann reaction
• Geminal halide hydrolysis
• Gewald reaction
• Gibbs phthalic anhydride process
• Gilman reagent
• Glaser coupling
• Glycol cleavage
• Goldberg reaction
• Gomberg–Bachmann reaction
• Gomberg–Bachmann–Hey reaction
• Gomberg radical reaction
• Gould–Jacobs reaction
• Graebe–Ullmann synthesis
• Grignard degradation
• Griesbaum coozonolysis
• Grignard reaction
• Grob fragmentation
• Grubbs' catalyst in Olefin metathesis
• Grundmann aldehyde synthesis
• Gryszkiewicz–Trochimowski and McCombie method
• Guareschi–Thorpe condensation
• Guerbet reaction
• Gutknecht pyrazine synthesis

H

• Hajos–Parrish–Eder–Sauer–Wiechert reaction
• Haller–Bauer reaction
• Haloform reaction
• Halogen addition reaction
• Halohydrin formation reaction
• Hammick reaction
• Hammond principle or Hammond postulate
• Hantzsch pyrrole synthesis
• Hantzsch dihydropyridine synthesis, Hantzsch pyridine synthesis
• Hantzsch pyridine synthesis, Gattermann–Skita synthesis, Guareschi–Thorpe condensation, Knoevenagel–Fries modification
• Hantzsch–Collidin synthesis
• Harries ozonolysis
• Haworth methylation
• Haworth synthesis
• Hay coupling
• Hayashi rearrangement
• Heck reaction
• Hegedus indole synthesis
• Helferich method
• Hell–Volhard–Zelinsky halogenation
• Hemetsberger indole synthesis
• Hemetsberger–Knittel synthesis
• Henkel reaction, Raecke process, Henkel process
• Henry reaction, Kamlet reaction
• Herz reaction, Herz compounds
• Herzig–Meyer alkimide group determination
• Heumann indigo synthesis
• Hiyama coupling
• Hydration reaction
• Hydroamination
• Hydrodesulfurization
• Hydrogenolysis
• Hydrosilylation
• Hinsberg indole synthesis
• Hinsberg oxindole synthesis
• Hinsberg reaction
• Hinsberg separation
• Hinsberg sulfone synthesis
• Hirao coupling
• Hoch–Campbell ethylenimine synthesis
• Hock rearrangement
• Hofmann bromamide reaction
• Hofmann degradation, Exhaustive methylation
• Hofmann elimination
• Hofmann Isonitrile synthesis, Carbylamine reaction
• Hofmann product
• Hofmann rearrangement
• Hofmann–Löffler reaction, Löffler–Freytag reaction, Hofmann–Löffler–Freytag reaction
• Hofmann–Martius rearrangement
• Hofmann's rule
• Hofmann–Sand reaction
• Homo rearrangement of steroids
• Hooker reaction
• Horner–Wadsworth–Emmons reaction
• Hoesch reaction
• Hosomi–Sakurai reaction
• Houben–Fischer synthesis
• Hudlicky fluorination
• Huisgen cycloaddition
• Hunsdiecker reaction, Hunsdiecker–Borodin reaction
• Hurd-Mori 1,2,3-thiadiazole synthesis
• Hurtley reaction
• Hydroboration
• Hydrocarbon cracking
• Hydrohalogenation

I

• Indium mediated allylation
• Ing–Manske procedure
• Ipso substitution
• Ireland–Claisen rearrangement
• Isay reaction
• Ishikawa reagent
• trans-cis isomerism
• Ivanov reagent, Ivanov reaction

J

• Jacobsen epoxidation
• Jacobsen rearrangement
• Janovsky reaction
• Japp–Klingemann reaction
• Japp–Maitland condensation
• Jocic reaction
• Johnson–Claisen rearrangement
• Johnson–Corey–Chaykovsky reaction
• Jones oxidation
• Jordan–Ullmann–Goldberg synthesis
• Julia olefination, Julia–Lythgoe olefination

K

• Kabachnik–Fields reaction
• Kharasch–Sosnovsky reaction
• Keck asymmetric allylation
• Ketimine Mannich reaction
• Ketone halogenation
• Kiliani–Fischer synthesis
• Kindler reaction
• Kishner cyclopropane synthesis
• Knoevenagel condensation
• Knorr pyrazole synthesis
• Knorr pyrrole synthesis
• Knorr quinoline synthesis
• Koch–Haaf reaction
• Kochi reaction
• Koenigs–Knorr reaction
• Kolbe electrolysis
• Kolbe nitrile synthesis
• Kolbe–Schmitt reaction
• Kornblum oxidation
• Kornblum–DeLaMare rearrangement
• Kostanecki acylation
• Kowalski ester homologation
• Krapcho decarboxylation
• Krische allylation
• Kröhnke aldehyde synthesis
• Kröhnke oxidation
• Kröhnke pyridine synthesis
• Kucherov reaction
• Kuhn–Winterstein reaction
• Kulinkovich reaction
• Kumada coupling

L

• Larock indole synthesis
• Lawesson's reagent
• Lebedev process
• Lehmstedt–Tanasescu reaction
• Leimgruber–Batcho indole synthesis
• Letts nitrile synthesis
• Leuckart reaction
• Leuckart thiophenol reaction
• Leuckart–Wallach reaction
• Leuckart amide synthesis
• Levinstein process
• Ley oxidation
• Lieben iodoform reaction, Haloform reaction
• Liebeskind–Srogl coupling
• Liebig melamine synthesis
• Lindlar catalyst
• Lobry de Bruyn–Van Ekenstein transformation
• Lombardo methylenation
• Lossen rearrangement
• Lucas' reagent
• Luche reduction

M

• Maillard reaction
• Madelung synthesis
• Malaprade reaction, Periodic acid oxidation
• Malonic ester synthesis
• Mannich reaction
• Markó–Lam deoxygenation
• Markovnikov's rule, Markownikoff rule, Markownikow rule
• Marschalk reaction
• Martinet dioxindole synthesis
• McDougall monoprotection
• McFadyen–Stevens reaction
• McMurry reaction
• Meerwein arylation
• Meerwein–Ponndorf–Verley reduction
• Meisenheimer rearrangement
• Meissenheimer complex
• Menshutkin reaction
• Metal-ion-catalyzed σ-bond rearrangement
• Mesylation
• Merckwald asymmetric synthesis
• Metallo-ene reaction
• Methylation
• Meyer and Hartmann reaction
• Meyer reaction
• Meyer synthesis
• Meyer–Schuster rearrangement
• Michael addition
• Michael addition, Michael system
• Michael condensation
• Michaelis–Arbuzov reaction
• Midland Alpine borane reduction
• Mignonac reaction
• Milas hydroxylation of olefins
• Minisci reaction
• Mislow–Evans rearrangement
• Mitsunobu reaction
• Miyaura borylation
• Modified Wittig-Claisen tandem reaction
• Molisch's test
• Mozingo reduction
• Mukaiyama aldol addition (Mukaiyama reaction)
• Mukaiyama hydration
• Myers' asymmetric alkylation

N

• Nametkin rearrangement
• Narasaka–Prasad reduction
• Nazarov cyclization reaction
• Neber rearrangement
• Nef reaction
• Negishi coupling
• Negishi zipper reaction
• Nenitzescu indole synthesis
• Nenitzescu reductive acylation
• Newman–Kwart rearrangement
• Nicholas reaction
• Niementowski quinazoline synthesis
• Niementowski quinoline synthesis
• Nierenstein reaction
• NIH shift
• Ninhydrin test
• Nitroaldol reaction
• Nitrone-olefin 3+2 cycloaddition
• Normant reagents
• Noyori asymmetric hydrogenation
• Nozaki–Hiyama–Kishi reaction
• Nucleophilic acyl substitution

O

• Ohira–Bestmann reaction
• Olah reagent
• Olefin metathesis
• Oppenauer oxidation
• Orton rearrangement
• Ostromyslenskii reaction, Ostromisslenskii reaction
• Overman rearrangement
• Oxidative decarboxylation
• Oxo synthesis
• Oxy-Cope rearrangement
• Oxymercuration
• Oxidation of alcohols to carbonyl compounds
• Ozonolysis

P

• Paal–Knorr pyrrole synthesis
• Paal–Knorr synthesis
• Paneth technique
• Passerini reaction
• Paternò–Büchi reaction
• Pauson–Khand reaction
• Payne rearrangement
• Pechmann condensation
• Pechmann pyrazole synthesis
• Pellizzari reaction
• Pelouze synthesis
• Peptide synthesis
• Perkin alicyclic synthesis
• Perkin reaction
• Perkin rearrangement
• Perkow reaction
• Petasis reaction
• Petasis reagent
• Peterson olefination
• Peterson reaction
• Petrenko-Kritschenko piperidone synthesis
• Pfau–Plattner azulene synthesis
• Pfitzinger reaction
• Pfitzner–Moffatt oxidation
• Phosphonium coupling
• Photosynthesis
• Piancatelli rearrangement
• Pictet–Gams isoquinoline synthesis
• Pictet–Hubert reaction
• Pictet–Spengler tetrahydroisoquinoline synthesis
• Pictet–Spengler reaction
• Piloty–Robinson pyrrole synthesis
• Pinacol coupling reaction
• Pinacol rearrangement
• Pinner amidine synthesis
• Pinner method for ortho esters
• Pinner reaction
• Pinner triazine synthesis
• Pinnick oxidation
• Piria reaction
• Polonovski reaction
• Pomeranz–Fritsch reaction
• Ponzio reaction
• Prato reaction
• Prelog strain
• Prevost reaction
• Prileschajew reaction
• Prilezhaev reaction
• Prins reaction
• Prinzbach synthesis
• Protecting group
• Pschorr reaction
• Pummerer rearrangement
• Purdie methylation, Irvine–Purdie methylation
• PUREX

Q

• Quelet reaction

R

• Ramberg–Bäcklund reaction
• Raney nickel
• Rap–Stoermer condensation
• Raschig phenol process
• Rauhut–Currier reaction
• Racemization
• Reductive amination
• Reductive dehalogenation of halo ketones
• Reed reaction
• Reformatskii reaction, Reformatsky reaction
• Reilly–Hickinbottom rearrangement
• Reimer–Tiemann reaction
• Reissert indole synthesis
• Reissert reaction, Reissert compound
• Reppe synthesis
• Retropinacol rearrangement
• Rieche formylation
• Riemschneider thiocarbamate synthesis
• Riley oxidations
• Ring closing metathesis
• Ring opening metathesis
• Ritter reaction
• Robinson annulation
• Robinson–Gabriel synthesis
• Robinson Schopf reaction
• Rosenmund reaction
• Rosenmund reduction
• Rosenmund–von Braun synthesis
• Roskamp reaction
• Rothemund reaction
• Rupe rearrangement
• Rubottom oxidation
• Ruff–Fenton degradation
• Ruzicka large-ring synthesis

S

• Saegusa–Ito oxidation
• Sakurai reaction
• Salol reaction
• Sandheimer
• Sandmeyer diphenylurea isatin synthesis
• Sandmeyer isonitrosoacetanilide isatin synthesis
• Sandmeyer reaction
• Sanger reagent
• Saponification
• Sarett oxidation
• Schiemann reaction
• Schiff reaction
• Schiff test
• Schlenk equilibrium
• Schlosser modification
• Schlosser variant
• Schmidlin ketene synthesis
• Schmidt degradation
• Schmidt reaction
• Scholl reaction
• Schorigin Shorygin reaction, Shorygin reaction, Wanklyn reaction
• Schotten–Baumann reaction
• Seliwanoff's test
• Semidine rearrangement
• Semmler–Wolff reaction
• Seyferth–Gilbert homologation
• Shapiro reaction
• Sharpless asymmetric dihydroxylation
• Sharpless epoxidation
• Sharpless oxyamination or aminohydroxylation
• Shenck ene reaction
• Shi epoxidation
• Shiina esterification
• Shiina macrolactonization or Shiina lactonization
• Sigmatropic reaction
• Simmons–Smith reaction
• Simonini reaction
• Simonis chromone cyclization
• Simons process
• Skraup chinolin synthesis
• Skraup reaction
• Smiles rearrangement
• SNAr nucleophilic aromatic substitution
• SN1
• SN2
• SNi
• Solvolysis
• Sommelet reaction
• Sonn–Müller method
• Sonogashira coupling
• Sørensen formol titration
• Staedel–Rugheimer pyrazine synthesis
• Stahl oxidation
• Staudinger reaction
• Staudinger synthesis
• Steglich esterification
• Stephen aldehyde synthesis
• Stephens-Castro coupling
• Stetter reaction
• Stevens rearrangement
• Stieglitz rearrangement
• Stille coupling
• Stobbe condensation
• Stollé synthesis
• Stork acylation
• Stork enamine alkylation
• Strecker amino acid synthesis
• Strecker degradation
• Strecker sulfite alkylation
• Strecker synthesis
• Stereocontrolled 1,2-addition to carbonyl groups
• Suzuki coupling
• Swain equation
• Swarts reaction
• Swern oxidation

T

• Tamao oxidation
• Tafel rearrangement
• Takai olefination
• Tebbe olefination
• ter Meer reaction
• Thiele reaction
• Thiol-yne reaction
• Thorpe reaction
• Tiemann rearrangement
• Tiffeneau ring enlargement reaction
• Tiffeneau–Demjanov rearrangement
• Tischtschenko reaction
• Tishchenko reaction, Tishchenko–Claisen reaction
• Tollens' reagent
• Transfer hydrogenation
• Trapp mixture
• Transesterification
• Traube purine synthesis
• Truce–Smiles rearrangement
• Tscherniac–Einhorn reaction
• Tschitschibabin reaction
• Tschugajeff reaction
• Tsuji–Trost reaction
• Tsuji–Wilkinson decarbonylation reaction
• Twitchell process
• Tyrer sulfonation process

U

• Ugi reaction
• Ullmann reaction
• Upjohn dihydroxylation
• Urech cyanohydrin method
• Urech hydantoin synthesis

V

• Van Leusen reaction
• Van Slyke determination
• Varrentrapp reaction
• Vilsmeier reaction
• Vilsmeier–Haack reaction
• Voight amination
• Volhard–Erdmann cyclization
• von Braun amide degradation
• von Braun reaction
• von Richter cinnoline synthesis
• von Richter reaction

W

• Wacker–Tsuji oxidation
• Wagner-Jauregg reaction
• Wagner–Meerwein rearrangement
• Waits–Scheffer epoxidation
• Walden inversion
• Wallach rearrangement
• Weerman degradation
• Weinreb ketone synthesis
• Wenker ring closure
• Wenker synthesis
• Wessely–Moser rearrangement
• Westphalen–Lettré rearrangement
• Wharton reaction
• Whiting reaction
• Wichterle reaction
• Widman–Stoermer synthesis
• Wilkinson catalyst
• Willgerodt rearrangement
• Willgerodt–Kindler reaction
• Williamson ether synthesis
• Winstein reaction
• Wittig reaction
• Wittig rearrangement:
  • 1,2-Wittig rearrangement
  • 2,3-Wittig rearrangement
• Wittig–Horner reaction
• Wohl degradation
• Wohl–Aue reaction
• Wohler synthesis
• Wohl–Ziegler reaction
• Wolffenstein–Böters reaction
• Wolff rearrangement
• Wolff–Kishner reduction
• Woodward cis-hydroxylation
• Woodward–Hoffmann rule
• Wulff–Dötz reaction
• Wurtz coupling, Wurtz reaction
• Wurtz–Fittig reaction

Y

• Yamada–Okamoto purine synthesis
• Yamaguchi esterification

Z

• Zaitsev's rule
• Zeisel determination
• Zerevitinov determination, Zerewitinoff determination
• Ziegler condensation
• Ziegler method
• Zimmermann reaction
• Zincke disulfide cleavage
• Zincke nitration
• Zincke reaction
• Zincke–Suhl reaction
• Zinin reduction

References

de:Liste von Reaktionen in der organischen Chemie

References

1. (1927). "Zur katalytischen Dehydrierung hydro-aromatischer Verbindungen". Berichte der Deutschen Chemischen Gesellschaft.
2. (1943). "Über die Anlagerung von Azodicarbonsäure-ester an Aldehyde". Berichte der Deutschen Chemischen Gesellschaft.
3. (1943). "Über die Anlagerung von Maleinsäure-anhydrid und Azodicarbonsäure-ester an einfach ungesättigte Koh an einfach ungesättigte Kohlenwasserstoffe. Zur Kenntnis von Substitutionsvorgängen in der Allyl-Stellung". Berichte der Deutschen Chemischen Gesellschaft.
4. (1943). "Über die Kondensation des Furans und seiner Homologen mit α,β-ungesättigten Ketonen und Aldehyden†Aufbau von Di-, Tri- und Tetraketonen der Fettreihe". Berichte der Deutschen Chemischen Gesellschaft.
5. (1942). "alpha-Bromo Secondary Alkyl Ketones. I. Reaction with Sodium Alcoholates. A New Synthesis of Tertiary Acids by Rearrangement^1,2". [[Journal of the American Chemical Society]].
6. (2010). "Comprehensive Organic Name Reactions and Reagents".
7. (1951). "α-Halo Ketones. V. The Preparation, Metathesis and Rearrangement of Certain α-Bromoketones". [[Journal of the American Chemical Society]].
8. (1950). "The Reaction of the Isomeric α-Bromomethyl Cyclohexyl Ketones with Sodium Methoxide". [[Journal of the American Chemical Society]].
9. (1965). "Bridged Ring Compounds. X.^1,2 The Reaction of Benzenesulfonyl Azide with Norbornadiene, Dicyclopentadiene, and Bicyclo[2.2.2]-2-octene". [[The Journal of Organic Chemistry]].
10. (1967). "A nitrogen analog of the Claisen rearrangement". [[Tetrahedron Letters]].
11. (1979). "The synthesis of N-substituted tetrahydropyridines using the hetero-cope rearrangement". [[Tetrahedron Letters]].
12. (1899). "Einwirkung des Caro'schen Reagens auf Ketone". Berichte der Deutschen Chemischen Gesellschaft.
13. (1933). "Molecular rearrangement of some o-acyloxyacetophenones and the mechanism of the production of 3-acylchromones". [[Journal of the Chemical Society]].
14. (1934). "Attempts to synthesise 5,6-dihydroxyflavone (primetin)". [[Journal of the Chemical Society]].
15. (1934). "Synthetical experiments in the chromone group. Part XIV. The action of sodamide on 1-acyloxy-2-acetonaphthones". [[Journal of the Chemical Society]].
16. (1935). "Synthetical experiments in the chromone group. Part XVII. Further observations on the action of sodamide on o-acyloxyacetophenones". [[Journal of the Chemical Society]].
17. (1976). "Rules for ring closure". Journal of the Chemical Society, Chemical Communications.
18. (1927). "Über aromatische Fluorverbindungen, I.: Ein neues Verfahren zu ihrer Darstellung". Berichte der Deutschen Chemischen Gesellschaft.
19. (1978). "Reactions of nitroarenes with Grignard reagents. General method of synthesis of alkyl-nitroso-substituted bicyclic aromatic systems". Journal of the Chemical Society, Perkin Transactions 1.
20. (1989). "The reaction of vinyl grignard reagents with 2-substituted nitroarenes: A new approach to the synthesis of 7-substituted indoles". [[Tetrahedron Letters]].
21. (1991). "Reactivity of nitro- and nitroso-arenes with vinyl grignard reagents: synthesis of 2-(trimethylsilyl)indoles". Journal of the Chemical Society, Perkin Transactions 1.
22. (1960). "A new photochemical reaction.". [[Journal of the American Chemical Society]].
23. (1961). "A new photochemical reaction.". [[Journal of the American Chemical Society]].
24. (1940). "The Introduction of Substituted Vinyl Groups. V. A Rearrangement Involving the Migration of an Allyl Group in a Three-Carbon System". [[Journal of the American Chemical Society]].
25. (1910). "Darstellung organischer Jodide aus den entsprechenden Bromiden und Chloriden". Berichte der Deutschen Chemischen Gesellschaft.
26. (1962). "Dimethylsulfoxonium Methylide". [[Journal of the American Chemical Society]].
27. (1965). "Dimethyloxosulfonium Methylide ((CH₃)₂SOCH₂) and Dimethylsulfonium Methylide ((CH₃)₂SCH₂). Formation and Application to Organic Synthesis". [[Journal of the American Chemical Society]].
28. (1946). "Researches on acetylenic compounds. Part I. The preparation of acetylenic ketones by oxidation of acetylenic carbinols and glycols". Journal of the Chemical Society.
29. (1953). "The chemistry of the triterpenes and related compounds. Part XVIII. Elucidation of the structure of polyporenic acid C". Journal of the Chemical Society.
30. (1973). "Syntheses a l'aide de sulfones v(+)- methode de synthese generale de doubles liaisons". [[Tetrahedron Letters]].
31. (1887). "Neue Synthese zweiatomiger einbasischer Säuren aus den Ketonen". Berichte der Deutschen Chemischen Gesellschaft.
32. (1948). "A New Reaction of Nitriles. II. Synthesis of t-Carbinamines". [[Journal of the American Chemical Society]].
33. (1948). "A New Reaction of Nitriles. I. Amides from Alkenes and Mononitriles". [[Journal of the American Chemical Society]].
34. (1980). "The first practical method for asymmetric epoxidation". [[Journal of the American Chemical Society]].