Abstract
The resolution of racemic 1-phenylphosphin-2-en-4-one 1-oxide (2), was achieved through the fractional crystallization of its diastereomeric complexes with (4R,5R)-(−)-2,2-dimethyl -α,α,α′,α′-tetraphenyl-dioxolan-4,5-dimethanol (R,R-TADDOL) followed by the liberation of the individual enantiomers of 2 by flash chromatography on silica gel columns. The resolution process furnished the two enantiomers of 2 of 99.1 and 99.9% e.e. at isolated yields of 62 and 59% (counted for the single enantiomer), respectively. The absolute configurations of the two enantiomers were established by means of X-ray crystallography of their diastereomerically pure complexes, i.e., (R)-2•R,R)-TADDOL and (S)-2•(R,R)-TADDOL. The structural analysis revealed that in the (R)-2•(R,R)-TADDOL complex, the P-phenyl substituent occupied a pseudoequatorial position, whereas in (S)-2•(R,R)-TADDOL, it appeared in both the pseudoequatorial and the pseudoaxial positions in four symmetrically independent molecules. Concurrent conformational changes of the TADDOL molecules were best described by the observed changes of a pseudo-torsional CO...OC angle that could be considered as a possible measure of TADDOL conformation in its receptor–ligand complexes. The structural analysis of the (R,R)-TADDOL molecule revealed that efficiency of this compound for use as an effective resolving factor comes from its ability to flexibly fit its structure to both enantiomers of a ligand molecule, producing a rare case of resolution for both pure enantiomers with one chiral separating agent. The resolved (R)-2 was used to assign the absolute configuration of a recently described (−)-1-phenylphosphin-2-en-4-one 1-sulfide by chemical correlation. In addition, an attempted stereoretentive reduction of (R)-2 by PhSiH3 at 60 °C revealed an unexpectedly low barrier for P-inversion in 1-phenylphosphin-2-en-4-one.
Highlights
The birth and evolution of asymmetric homogeneous catalysis is strongly coupled to the development of chiral phosphorus ligands
Despite intensive research efforts over the past two decades, nonracemic phosphinanes relatively scarce due, most probably, to the deficiency of convenient methods enabling the are still relatively scarce due, most probably, to the deficiency of convenient methods ensynthesis of functionalized phosphinane rings that are suitable for their further structural abling the synthesis of functionalized phosphinane rings that are suitable for their further modifications [6,7,8,9,10,11,12,13,14,15,16,17]
The analysis of the structural data that have been published for the TADDOL molecule, which is frequently used as a receptor in racemate resolutions, so far showed that it is capable of adpating its conformation to the presence of opposite enantiomers of a ligand molecule
Summary
The birth and evolution of asymmetric homogeneous catalysis is strongly coupled to the development of chiral phosphorus ligands. Molecules 2021, 26, x FOR PEER REVIEW ligands are chiral six-membered carbon-phosphorus heterocycles (phosphinanes). Despite intensive research efforts over the past two decades, nonracemic phosphinanes are still. Despite intensive research efforts over the past two decades, nonracemic phosphinanes relatively scarce due, most probably, to the deficiency of convenient methods enabling the are still relatively scarce due, most probably, to the deficiency of convenient methods ensynthesis of functionalized phosphinane rings that are suitable for their further structural abling the synthesis of functionalized phosphinane rings that are suitable for their further modifications [6,7,8,9,10,11,12,13,14,15,16,17].
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