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Enantioselective reduction of α-substituted ketones mediated by the boronate ester TarB-NO2

✍ Scribed by Scott Eagon; Nicholas Ball-Jones; Dustin Haddenham; Jaime Saavedra; Cassandra DeLieto; Matthew Buckman; Bakthan Singaram

Book ID
104098415
Publisher
Elsevier Science
Year
2010
Tongue
French
Weight
264 KB
Volume
51
Category
Article
ISSN
0040-4039

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✦ Synopsis

A facile and mild reduction procedure is reported for the preparation of chiral secondary alcohols prepared from a-substituted ketones using sodium borohydride and the chiral boronate ester (L)-TarB-NO 2 . Direct reduction of substituted ketones bearing Lewis basic heteroatoms generally provided secondary alcohols of only modest enantiomeric excess likely due to either competition between the target carbonyl and the functionalized sidechains at the Lewis acidic boron atom in TarB-NO 2 or the added steric bulk of the a-sidechain. As an alternative method, these substrates were synthesized using TarB-NO 2 via a two-step procedure involving the reduction of an a-halo ketone to a chiral terminal epoxide, followed by regioselective/regiospecific epoxide opening by various nucleophiles. This procedure provides access to a variety of functionalized secondary alcohols including b-hydroxy ethers, thioethers, nitriles, and amines with enantiomeric excesses of 94% and yields up to 98%.

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✍ Yutaka Nakamura; Seiji Takeuchi; Yoshiaki Ohgo; Makoto Yamaoka; Akihiro Yoshida; 📂 Article 📅 1997 🏛 Elsevier Science 🌐 French ⚖ 171 KB

High enantioselectivity (tq9 to 94% ee) ha~ been trhieved in the protonation of samarium enolaes which were generated by S ml2-medaed nub, ction of 2-aryl-2-methoxycyclohexanones using a C2-symmetric chiraldiol as aproton source.