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Enantioselective Radical Type, 1,2-Oxytrifluoromethylation of Olefins Catalyzed by Chiral Vanadyl Complexes: Importance of Noncovalent Interactions

Chien‐Tien Chen, Yu-Cheng Su, Chia-Hao Lu, Chien-I Lien, Shiang-Fu Hung, Chan-Wei Hsu, Rachit Agarwal, Ramuasagar Modala, Hung-Min Tseng, Pin-Xuan Tseng, Ryoma Fujii, Kyohei Kawashima, Seiji Mori

2021ACS Catalysis22 citationsDOI

Abstract

Asymmetric three-component 1,2-oxytrifluoromethylations of styrenes were explored by using N-oxyphthalimide (NOPI) as the resulting benzylic radical anchor after cross-coupling by a CF3 radical under the catalyses of chiral N-salicylidene-derived oxovanadium(V) complexes. Among the 15 different solvents and 15 different catalysts examined, the best scenarios were in i-PrOH with C3-tert-butyl or C3-fluoro-/2,5-dimethylphenyl-substituted vanadyl catalysts that led to the corresponding complementary S and R products in up to 88% yields and 87/86% ees, respectively, with further enrichment to at least 94% ee after a single recrystallization. The ccontrol α-(2-phenylcyclopropyl)styrene was tested to prove the asymmetric event involving the benzylic radical species. DFT computations showed that the SOMO of the benzylic radical is placed in a way to orient the CF3CH2 group away from the tert-butyl group in the salicylidene-l-tert-butylglycinate template by interacting with the N-oxygen atom of NOPI bound to the vanadium center with a bimolecular homolytic substitution (SH2) type mechanism. The enantioselectivity profile was dominated by several noncovalent interactions between the intermediary vanadium(NOPI) complex and the resulting benzylic radical.

Topics & Concepts

ChemistryEnantioselective synthesisCatalysisHomolysisStyreneNon-covalent interactionsCatalytic cycleChirality (physics)VanadiumOlefin fiberMedicinal chemistryOxidative coupling of methaneStereochemistryPhotochemistryRadicalOrganic chemistryMoleculeHydrogen bondNambu–Jona-Lasinio modelChiral symmetry breakingQuantum mechanicsPolymerQuarkPhysicsCopolymerFluorine in Organic ChemistryRadical Photochemical ReactionsCatalytic C–H Functionalization Methods