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1.
J Am Chem Soc ; 131(23): 8196-210, 2009 Jun 17.
Article in English | MEDLINE | ID: mdl-19507906

ABSTRACT

The viability of bridgehead lithiation-substitution of bridged carbonyl compounds has been tested in the laboratory, and the results were rationalized with the aid of a computational study. Lithiation-substitution was found to be possible for ketones, lactones, lactams, and imides having small bridges, including examples having [3.2.1], [3.2.2], [3.3.1], [4.2.1], and [4.3.1] skeletons. Smaller systems, where the sum of the bridging atoms (S) was 5, for example [2.2.1] or [3.1.1] ketones or [2.2.1] lactams, did not undergo controlled bridgehead substitution. Ketones or lactams having a [2.2.2] structure also did not give bridgehead substitution. B3LYP calculations accurately predict this behavior with negative DeltaE(rxn) values being calculated for the successful deprotonations and positive DeltaE(rxn) values being calculated for the unsuccessful ones. NBO calculations were also performed on the anionic deprotonated species, and these show that some structures are best represented as bridgehead enolates and some are best represented as alpha-keto carbanions.


Subject(s)
Bridged-Ring Compounds/chemistry , Imides/chemistry , Ketones/chemistry , Lactams/chemistry , Lactones/chemistry , Lithium/chemistry , Models, Chemical , Computer Simulation , Mathematical Computing , Molecular Structure
2.
Org Lett ; 5(10): 1673-5, 2003 May 15.
Article in English | MEDLINE | ID: mdl-12735749

ABSTRACT

[reaction: see text] Contrary to expectations, a number of bridged carbonyl compounds undergo facile bridgehead metalation with lithium amide bases. Diketone, lactone, lactam, and imide functions are all demonstrated to participate in this type of "bridgehead enolate" chemistry, leading to a range of substituted products. Meso compounds can also be desymmetrized in very high ee by asymmetric bridgehead metalation.

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