Intramolecular iron(II)-catalyzed nitrogen transfer reactions of unsaturated alkoxycarbonyl azides: A facile and stereoselective route to 4,5-disubstituted oxazolidinones

Abstract

Intramolecular Fe11-catalyzed reactions of various unsaturated alkoxycarbonyl azides are described. The reactions occur in the presence of stoichiometric amounts of trimethyl silyl chloride employing ethanol as the solvent. The corresponding 2-alkenyloxycarbonyl azides 5, 9, 18, 20, 22, and 24 gave the products 7/8, 10/11, 19, 21, 23, and 25 of an olefin chloroamination in moderate to good yields (47-72%). The facial diastereoselectivity of the ring closing C-N-bond forming step is good both in cyclic (20, 24) and in acyclic substrates (5, 18, 22) (>90% ds). The subsequent chlorine atom transfer occurs selectively in cyclic systems (20, 24) and in systems (9b, 18) which exhibit a conformational bias in the postulated radical intermediate 14. The lifetime τ of this elusive intermediate was estimated from the loss of stereochemical information in conformationally unrestricted systems (9a, 22) and from the data obtained with a radical clock (31 → 32). 2-Alkynyloxycarbonyl azides 34 and 36 also yield chloroamination products which are obtained exclusively as the (Z)-isomers 35 and 37 (81-99% yield). The products of the tert-butyl-substituted substrates 38 undergo an immediate rearrangement/solvolysis reaction in the reaction mixture and gave the 5-alkoxyoxazolidinones 39 (93-99% yield).