The reaction of (Phebox)SnMe3 (4; Phebox = 2,6-bis(oxazolinyl)phenyl) and [(cyclooctene)2RhCl]2
in the presence of CCl4 provided the air-stable and water-tolerant (Phebox)RhCl2(H2O)
complexes 5. These neutral (noncationic) aqua complexes 5 acted as asymmetric catalysts
for enantioselective allylation of aldehydes with allyltin reagents in the presence of 4 Å
molecular sieves (MS 4A). Furthermore, these aqua complexes could be recovered quantitatively from the reaction media. Detailed mechanistic studies of this catalytic system using
X-ray and NMR spectroscopy revealed that the (Phebox)RhCl2 fragment, generated by
releasing H2O from aqua complex 5, is an active catalyst and the reaction proceeds by a
Lewis acid catalyzed mechanism. The relative stereochemistry of the major adduct of the
reaction of benzaldehyde with crotyltin reagents was anti (threo). The observed anti
diastereoselectivity and si-face attack of allyltins on the carbonyl carbon of aldehydes were
explained by the inverse antiperiplanar transition-state model.
diastereoselective syntheses, enantioselective syntheses diastereoselective syntheses, enantioselective syntheses (incl. cis/trans-isomerism) O 0031
-035Bis(oxazolinyl)phenylrhodium(III) Aqua Complexes: Synthesis, Structure, Enantioselective Allylation of Aldehydes, and Mechanistic Studies.-The use of various novel Rh(III)-phebox catalysts in the asymmetric addition of allyltin reagent (III) to aldehydes (II) and (V) is demonstrated. Best results are obtained with the Bn-phebox catalyst (Ia), which allows for isolation of the adducts in up to 80% optical purity. Reaction of benzaldehyde (II) with crotyltin reagents (VII) proceeds with anti-selectivity irrespective of the geometry of the starting crotyltin reagent. The reaction is proposed to proceed by a Lewis acid-catalyzed mechanism. In all cases, the allyltin reagents attack the si-face of the carbonyl carbon of the aldehydes. -(MOTOYAMA, YUKIHIRO
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