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Reimer–Tiemann reaction

December 15, 2023

The Reimer–Tiemann reaction is a chemical reaction used for the ortho-formylation of phenols.[1][2][3][4] with the simplest example being the conversion of phenol to salicylaldehyde. The reaction was first reported by Karl Reimer and Ferdinand Tiemann.[5]

Reimer–Tiemann reaction also known as RT reaction
Named after Karl Reimer
Ferdinand Tiemann
Reaction type Substitution reaction
Identifiers
RSC ontology ID RXNO:0000072
The Reimer-Tiemann reaction

Reaction mechanism edit

 
The mechanism of the Reimer-Tiemann reaction

Chloroform (1) is deprotonated by a strong base (normally hydroxide) to form the chloroform carbanion (2) which will quickly alpha-eliminate to give dichlorocarbene (3); this is the principal reactive species. The hydroxide will also deprotonate the phenol (4) to give a negatively charged phenoxide (5). The negative charge is delocalised into the aromatic ring, making it far more nucleophilic. Nucleophilic attack on the dichlorocarbene gives an intermediate dichloromethyl substituted phenol (7). After basic hydrolysis, the desired product (9) is formed.[6]

Selectivity edit

By virtue of its 2 electron-withdrawing chlorine groups, carbene (3) is highly electron deficient and is attracted to the electron rich phenoxide (5). This interaction favors selective ortho-formylation.

Reaction conditions edit

Hydroxides are not readily soluble in chloroform, thus the reaction is generally carried out in a biphasic solvent system. In the simplest sense this consists of an aqueous hydroxide solution and an organic phase containing the chloroform. Therefore, the two reagents are separated and must be brought together for the reaction to take place. This can be achieved by rapid mixing, phase-transfer catalysts, or an emulsifying agent (the use of 1,4-dioxane as a solvent is an example).

The reaction typically needs to be heated to initiate the process, however once started the Reimer-Tiemann Reaction can be highly exothermic, this combination makes it prone to thermal runaways.

Scope edit

The Reimer–Tiemann reaction is effective for other hydroxy-aromatic compounds, such as naphthols.[7] Electron rich heterocycles such as pyrroles and indoles are also known to react.

Dichlorocarbenes can react with alkenes and amines to form dichlorocyclopropanes and isocyanides respectively. As such the Reimer–Tiemann reaction may be unsuitable for substrates bearing these functional groups. In addition, many compounds can not withstand being heated with hydroxide.

Comparison to other methods edit

The direct formylation of aromatic compounds can be accomplished by various methods such as the Gattermann reaction, Gattermann–Koch reaction, Vilsmeier–Haack reaction, or Duff reaction; however, in terms of ease and safety of operations, the Reimer–Tiemann reaction is often the most advantageous route chosen in chemical synthesis. Of the reactions mentioned before, the Reimer–Tiemann reaction is the only route not requiring acidic and/or anhydrous conditions.[2] Additionally the Gattermann-Koch reaction is not applicable to phenol substrates.

Variations edit

The Reimer–Tiemann reaction can be altered to yield phenolic acids by substituting the chloroform with carbon tetrachloride.[8] For instance, the altered reaction with phenol would yield salicylic acid rather than the expected product, salicylaldehyde.

Historical references edit

Reimer and Tiemann published several papers on the subject.[9][10][5][11] The early work has been reviewed.[12]

References edit

  1. ^ March, Jerry (1985), Advanced Organic Chemistry: Reactions, Mechanisms, and Structure, 3rd edition, New York: Wiley, p. 726-7, ISBN 9780471854722, OCLC 642506595
  2. ^ a b Wynberg and Meijer, Egbert, Hans; Meijer, Egbert W. (2005). The Reimer–Tiemann Reaction. p. 14. doi:10.1002/0471264180.or028.01. ISBN 9780471264187.
  3. ^ Dauben, William G. (1982). "The Reimer-Tiemann Reaction". Organic Reactions, Volume 28. Hoboken, NJ: Wiley-Interscience. pp. 1–36. doi:10.1002/0471264180.or028.01. ISBN 978-0471861416.
  4. ^ Wynberg, Hans (1991-01-01), Trost, Barry M.; Fleming, Ian (eds.), "3.4 - The Reimer–Tiemann Reaction", Comprehensive Organic Synthesis, Oxford: Pergamon, pp. 769–775, doi:10.1016/b978-0-08-052349-1.00048-2, ISBN 978-0-08-052349-1, retrieved 2022-02-28
  5. ^ a b Reimer, Karl; Tiemann, Ferdinand (1876). "Ueber die Einwirkung von Chloroform auf alkalische Phenolate" [The effect of chloroform on phenol and especially on the alkaline solution of aromatic oxyacids]. Berichte der Deutschen Chemischen Gesellschaft (in German). 9: 824–828. doi:10.1002/cber.187600901247.
  6. ^ Hine, Jack; Van Der Veen, James M. (December 1959). "The Mechanism of the Reimer-Tiemann Reaction". Journal of the American Chemical Society. 81 (24): 6446–6449. doi:10.1021/ja01533a028.
  7. ^ Russell, Alfred; Lockhart, Luther B. (1942). "2-HYDROXY-1-NAPHTHALDEHYDE". Organic Syntheses. 22: 63. doi:10.15227/orgsyn.022.0063.
  8. ^ Gaonkar, A.V.; Kirtany, J.K. (2010). "ChemInform Abstract: Reimer-Tiemann Reaction Using Carbon Tetrachloride". ChemInform. 22 (41): 1991. doi:10.1002/chin.199141092.
  9. ^ Reimer, K. (1876). "Ueber eine neue Bildungsweise aromatischer Aldehyde" [On a new way of forming aromatic aldehydes]. Berichte der Deutschen Chemischen Gesellschaft (in German). 9: 423–424. doi:10.1002/cber.187600901134.
  10. ^ Reimer, Karl (1883) "Sitzung vom 22. Januar 1883". Berichte der deutschen chemischen Gesellschaft. 16, p. 101.
  11. ^ Reimer, K.; Tiemann, Ferdinand (1876). "Ueber die Einwirkung von Chloroform auf Phenole und besonders aromatische Oxysäuren in alkalischer Lösung" [On the effect of chloroform on phenols and particularly aromatic oxyacids in alkaline solution]. Berichte der Deutschen Chemischen Gesellschaft. 9 (2): 1268–1278. doi:10.1002/cber.18760090270.
  12. ^ Wynberg, Hans (1960). "The Reimer-Tiemann Reaction". Chemical Reviews. 60 (2): 169–184. doi:10.1021/cr60204a003.

December 15, 2023
reimer, tiemann, reaction, chemical, reaction, used, ortho, formylation, phenols, with, simplest, example, being, conversion, phenol, salicylaldehyde, reaction, first, reported, karl, reimer, ferdinand, tiemann, also, known, reactionnamed, after, karl, reimer,. The Reimer Tiemann reaction is a chemical reaction used for the ortho formylation of phenols 1 2 3 4 with the simplest example being the conversion of phenol to salicylaldehyde The reaction was first reported by Karl Reimer and Ferdinand Tiemann 5 Reimer Tiemann reaction also known as RT reactionNamed after Karl Reimer Ferdinand TiemannReaction type Substitution reactionIdentifiersRSC ontology ID RXNO 0000072 The Reimer Tiemann reactionContents 1 Reaction mechanism 1 1 Selectivity 2 Reaction conditions 3 Scope 4 Comparison to other methods 5 Variations 6 Historical references 7 ReferencesReaction mechanism edit nbsp The mechanism of the Reimer Tiemann reactionChloroform 1 is deprotonated by a strong base normally hydroxide to form the chloroform carbanion 2 which will quickly alpha eliminate to give dichlorocarbene 3 this is the principal reactive species The hydroxide will also deprotonate the phenol 4 to give a negatively charged phenoxide 5 The negative charge is delocalised into the aromatic ring making it far more nucleophilic Nucleophilic attack on the dichlorocarbene gives an intermediate dichloromethyl substituted phenol 7 After basic hydrolysis the desired product 9 is formed 6 Selectivity edit By virtue of its 2 electron withdrawing chlorine groups carbene 3 is highly electron deficient and is attracted to the electron rich phenoxide 5 This interaction favors selective ortho formylation Reaction conditions editHydroxides are not readily soluble in chloroform thus the reaction is generally carried out in a biphasic solvent system In the simplest sense this consists of an aqueous hydroxide solution and an organic phase containing the chloroform Therefore the two reagents are separated and must be brought together for the reaction to take place This can be achieved by rapid mixing phase transfer catalysts or an emulsifying agent the use of 1 4 dioxane as a solvent is an example The reaction typically needs to be heated to initiate the process however once started the Reimer Tiemann Reaction can be highly exothermic this combination makes it prone to thermal runaways Scope editThe Reimer Tiemann reaction is effective for other hydroxy aromatic compounds such as naphthols 7 Electron rich heterocycles such as pyrroles and indoles are also known to react Dichlorocarbenes can react with alkenes and amines to form dichlorocyclopropanes and isocyanides respectively As such the Reimer Tiemann reaction may be unsuitable for substrates bearing these functional groups In addition many compounds can not withstand being heated with hydroxide Comparison to other methods editThe direct formylation of aromatic compounds can be accomplished by various methods such as the Gattermann reaction Gattermann Koch reaction Vilsmeier Haack reaction or Duff reaction however in terms of ease and safety of operations the Reimer Tiemann reaction is often the most advantageous route chosen in chemical synthesis Of the reactions mentioned before the Reimer Tiemann reaction is the only route not requiring acidic and or anhydrous conditions 2 Additionally the Gattermann Koch reaction is not applicable to phenol substrates Variations editThe Reimer Tiemann reaction can be altered to yield phenolic acids by substituting the chloroform with carbon tetrachloride 8 For instance the altered reaction with phenol would yield salicylic acid rather than the expected product salicylaldehyde Historical references editReimer and Tiemann published several papers on the subject 9 10 5 11 The early work has been reviewed 12 References edit March Jerry 1985 Advanced Organic Chemistry Reactions Mechanisms and Structure 3rd edition New York Wiley p 726 7 ISBN 9780471854722 OCLC 642506595 a b Wynberg and Meijer Egbert Hans Meijer Egbert W 2005 The Reimer Tiemann Reaction p 14 doi 10 1002 0471264180 or028 01 ISBN 9780471264187 Dauben William G 1982 The Reimer Tiemann Reaction Organic Reactions Volume 28 Hoboken NJ Wiley Interscience pp 1 36 doi 10 1002 0471264180 or028 01 ISBN 978 0471861416 Wynberg Hans 1991 01 01 Trost Barry M Fleming Ian eds 3 4 The Reimer Tiemann Reaction Comprehensive Organic Synthesis Oxford Pergamon pp 769 775 doi 10 1016 b978 0 08 052349 1 00048 2 ISBN 978 0 08 052349 1 retrieved 2022 02 28 a b Reimer Karl Tiemann Ferdinand 1876 Ueber die Einwirkung von Chloroform auf alkalische Phenolate The effect of chloroform on phenol and especially on the alkaline solution of aromatic oxyacids Berichte der Deutschen Chemischen Gesellschaft in German 9 824 828 doi 10 1002 cber 187600901247 Hine Jack Van Der Veen James M December 1959 The Mechanism of the Reimer Tiemann Reaction Journal of the American Chemical Society 81 24 6446 6449 doi 10 1021 ja01533a028 Russell Alfred Lockhart Luther B 1942 2 HYDROXY 1 NAPHTHALDEHYDE Organic Syntheses 22 63 doi 10 15227 orgsyn 022 0063 Gaonkar A V Kirtany J K 2010 ChemInform Abstract Reimer Tiemann Reaction Using Carbon Tetrachloride ChemInform 22 41 1991 doi 10 1002 chin 199141092 Reimer K 1876 Ueber eine neue Bildungsweise aromatischer Aldehyde On a new way of forming aromatic aldehydes Berichte der Deutschen Chemischen Gesellschaft in German 9 423 424 doi 10 1002 cber 187600901134 Reimer Karl 1883 Sitzung vom 22 Januar 1883 Berichte der deutschen chemischen Gesellschaft 16 p 101 Reimer K Tiemann Ferdinand 1876 Ueber die Einwirkung von Chloroform auf Phenole und besonders aromatische Oxysauren in alkalischer Losung On the effect of chloroform on phenols and particularly aromatic oxyacids in alkaline solution Berichte der Deutschen Chemischen Gesellschaft 9 2 1268 1278 doi 10 1002 cber 18760090270 Wynberg Hans 1960 The Reimer Tiemann Reaction Chemical Reviews 60 2 169 184 doi 10 1021 cr60204a003 Retrieved from https en wikipedia org w index php title Reimer Tiemann reaction amp oldid 1188977836, wikipedia, wiki, book, books, library,

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