The first example of an asymmetric b-peroxidation of nitroalkenes is disclosed. The reaction is promoted by catalytic loadings of a commercially available diaryl-2-pyrrolidinemethanol derivative and tert-butyl hydroperoxide as the oxidant. A synthetically useful class of peroxides is obtained in good yield and enantioselectivity (up to 84% ee).Keywords: asymmetric catalysis; Michael addition; nitroalkenes; organocatalysis; peroxides Catalytic asymmetric conjugate additions are fundamental reactions in organic synthesis, widely used to form carbon-carbon and carbon-heteroatom bonds. [1] An impressive number of Michael addition reactions, either using metal-based chiral complex catalysis [2] or small chiral molecules as organocatalysts [3] have been developed. Among the different acceptors, easily accessible nitroalkenes have been intensively investigated as being compounds of a highly reactive nature. [4] Moreover, the nitro group can undergo a number of further transformations, after the addition, giving rise to a variety of enantioenriched compounds. [5] In this context, organocatalysts such as Cinchona alkaloids and thioureas, besides enamine activation of ketones and aldehydes as donors, [6] can promote efficient asymmetric conjugate additions of different acidic pronucleophiles to nitroalkenes. [7] In these examples, a bifunctional type of catalysis has been proposed, that involves activation of the acceptor via hydrogen bonding between the nitro moiety and a Brønsted acid functionality of the catalyst, whereas the pronucleophile is deprotonated by a basic group of the catalyst. Hence, a synergic network of hydrogen bonding and ion pairing interactions engaged between the reactants and the active sites of the chiral promoter assure a well-organized transition state leading to high stereocontrol.Despite the synthetic importance of epoxides or bhydroxy compounds, achievable through asymmetric conjugate addition to nitroalkenes, the strong basicity and poor nucleophilicity of oxygen nucleophiles render this approach problematic. Indeed, only a few examples of stereoselective oxa-Michael reactions were reported by the groups of Enders, [8] Dixon [9] and Jørgensen. [10] We have recently developed a simple methodology for the highly enantioselective epoxidation of a,benones catalyzed by diaryl-2-pyrrolidinemethanol compounds and tert-butyl hydroperoxide (TBHP) as the oxidant.[11] The same organocatalysts were found to be effective in the Michael addition of malonate esters to nitroalkenes although with only a moderate degree of asymmetric induction.[12] Encouraged by these results and the small number of asymmetric approaches based on oxa-Michael addition to nitroalkenes, we envisaged to exploit our organocatalytic system for their epoxidation.[13] Interestingly, peroxides 3 were formed as the result of the addition [Eq.(1)]. To the best of our knowledge, compounds 3 have been previously suggested as intermediates in the oxidation of trans-b-nitrostyrenes to a-nitroacetophenones using TBHP and n-BuLi a...