The enantioselective oxa-Michael reaction of alkoxyboronate strategy was demonstrated to provide a new and practical route to enantioriched 1- and 3-substituted isochromans using a chiral bifunctional organocatalyst. Furthermore, this methodology was extended to the enantioselective synthesis of (+)-sonepiprazole, a dopamine receptor antagonist.
A unified dynamic kinetic spiroketalization/enantioselective oxa-Michael addition cascade of an aromatic ketone tethered to an alkoxyboronate and an enone moiety has been developed using cinchona alkaloid based amino-thiourea/squaramide organocatalysts to provide isobenzofuran-based benzannulated spiroketals with high diastereoselectivities and excellent enantioselectivities. Further, a dynamic kinetic peroxy-hemiacetalization/dynamic kinetic spiroketalization/enantioselective oxa-Michael addition cascade of the above substrates provides the corresponding exo-peroxy-benzannulated spiroketals with outstanding enantio- and diastereoselectivities.
An unprecedented enantioselective peroxyhemiacetalization/oxa-Michael addition cascade of ortho-formyl homochalcones has been developed using cinchona-alkaloid-based chiral bifunctional organocatalysts to provide cis-configured exo-peroxyacetals, a new class of organic peroxide, in good yields with excellent enantio- and diastereoselectivities. The resulting cis-configured exo-peroxyacetals were converted into the corresponding trans-configured peroxyacetals without affecting the enantioselectivity. Furthermore, the displacement of the peroxide moiety of exo-peroxyacetals with various nucleophiles has been demonstrated to afford 1,3-disubstituted isochromans with high diastereoselectivities and excellent enantioselectivities.
An unprecedented approach for the synthesis of homo- and hetero-1,2,4-triaryl benzenes has been developed using a simple base-mediated reaction of either α-aryl cinnamyl alcohols or α,γ-di-aryl propanones. The salient feature of this strategy involves the sequential hydride transfer, regiospecific condensation, regiospecific dearylation, and aromatization under metal-free reaction conditions. The synthesis of unsymmetrically substituted triphenylenes by oxidative coupling of the synthesized 1,2,4-triaryl benzenes has also been demonstrated.
An enantioselective synthesis of 3-substituted benzoxaboroles has been developed using organocatalysts with good to excellent enantioselectivities (up to 99%). The resulting benzoxaboroles were converted to the chiral β-hydroxy ketones without affecting the enantioselectivity.
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