Pinner reaction
The Pinner reaction refers to the acid catalysed reaction of a nitrile with an alcohol to form an imino ester salt (alkyl imidate salt); this is sometimes referred to as a Pinner salt.[1] The reaction is named after Adolf Pinner, who first described it in 1877.[2][3][4] Pinner salts are themselves reactive and undergo additional nucleophilic additions to give various useful products:[5][6]
- With an excess of alcohol to form an orthoester
- With ammonia or an amine to form an amidine (di-nitriles may form imidines, for instance succinimidine from succinonitrile)[7]
- With water to form an ester
- With hydrogen sulfide to form a thionoester
Pinner reaction | |
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Named after | Adolf Pinner |
Reaction type | Coupling reaction |
Identifiers | |
Organic Chemistry Portal | pinner-reaction |
RSC ontology ID | RXNO:0000361 |
Commonly, the Pinner salt itself is not isolated, with the reaction being continued to give the desired functional group (orthoester etc.) in one go. It should be appreciated that the Pinner reaction refers specifically to an acid catalyzed process, but that similar results can often be achieved using base catalysis. The two approaches can be complementary, with nitriles which are unreactive under acid conditions often giving better results in the presence of base, and vice versa.[8] The determining factor is typically how electron-rich or poor the nitrile is. For example: an electron-poor nitrile is a good electrophile (readily susceptible to attack from alkoxides etc.) but a poor nucleophile would typically be easier to protonate than to participate in the reaction and hence would be expected to react more readily under basic rather than acidic conditions.
See also
- Hoesch reaction
- Overman rearrangement
- Stephen aldehyde synthesis – essentially the same reaction but including a reduction and with water as the nucleophile; generates the aldehyde.
References
- "Pinner Reaction". Comprehensive Organic Name Reactions and Reagents (504): 2237–2240. 2010. doi:10.1002/9780470638859.conrr504. ISBN 9780470638859.
- A. Pinner, F. Klein; Klein (1877). "Umwandlung der Nitrile in Imide". Berichte der deutschen chemischen Gesellschaft. 10 (2): 1889–1897. doi:10.1002/cber.187701002154.
- A. Pinner, Fr. Klein; Klein (1878). "Umwandlung der Nitrile in Imide". Berichte der deutschen chemischen Gesellschaft. 11 (2): 1475–1487. doi:10.1002/cber.18780110258.
- A. Pinner (1883). "Ueber die Umwandlung der Nitrile in Imide". Berichte der deutschen chemischen Gesellschaft. 16 (2): 1643–1655. doi:10.1002/cber.18830160235.
- Roger, R.; Neilson, D. G. (1961). "The Chemistry of Imidates". Chem. Rev. 61 (2): 179–211. doi:10.1021/cr60210a003.
- Adams, Roger; Thal, A. F. (1922). "Ethyl Phenylacetate". Organic Syntheses. 2: 27. doi:10.15227/orgsyn.002.0027.
- Elvidge, J. A.; Linstead, R. P. (1954). "Heterocyclic imines and amines. Part III. Succinimidine". Journal of the Chemical Society (Resumed): 442. doi:10.1039/JR9540000442.
- Schaefer, F. C.; Peters, G. A. (1961). "Base-Catalyzed Reaction of Nitriles with Alcohols. A Convenient Route to Imidates and Amidine Salts". Journal of Organic Chemistry. 26 (2): 412. doi:10.1021/jo01061a034.