Litcius/Paper detail

Stereoselective hydrogen atom transfer to acyclic radicals: a switch enabling diastereodivergent borylative radical cascades

Ye Tian, Feng‐Lian Zhang, Huimin Xia, Xi Zhou, Zhi‐Xiang Yu, Yi‐Feng Wang

2022Nature Communications28 citationsDOIOpen Access PDF

Abstract

Abstract Radical cascade reactions are powerful tools to construct structurally complex molecules. However, the stereochemical control of acyclic radical intermediates remains a persistent challenge, due to the low differentiation between the two faces of these species. This hurdle further makes stereodivergent synthesis rather more difficult to be accomplished, in particular for intermediates resulted from complex cascades. Here we report an efficient strategy for stereoselective hydrogen atom transfer (HAT) to acyclic carbon radicals, which are generated via N -heterocyclic carbene (NHC)-boryl radicals triggered addition-translocation-cyclization cascades. A synergistic control by the NHC subunit and a thiol catalyst has proved effective for one facial HAT, while a ZnI 2 -chelation protocol allows for the preferential reaction to the opposite face. Such a stereoselectivity switch enables diastereodivergent construction of heterocycles tethering a boron-substituted stereocenter. Mechanistic studies suggest two complementary ways to tune HAT diastereoselectivity. The stereospecific conversions of the resulting boron-handled products to diverse functionalized molecules are demonstrated.

Topics & Concepts

StereoselectivityChemistryStereocenterRadicalAlkeneHydrogen atomCombinatorial chemistryStereochemistryMoleculeStereospecificityCatalysisEnantioselective synthesisOrganic chemistryAlkylRadical Photochemical ReactionsOrganoboron and organosilicon chemistryCatalytic C–H Functionalization Methods
Stereoselective hydrogen atom transfer to acyclic radicals: a switch enabling diastereodivergent borylative radical cascades | Litcius