Polar hydrogen species mediated nitroarenes selective reduction to anilines over an [FeMo]Sx catalyst

Abstract

We herein present an efficient approach for the chemoselective synthesis of arylamines from nitroarenes and hydrazine over an iron-molybdenum sulfide catalyst ([FeMo]S_x). The heterogeneous hydrogen transfer reduction can be efficiently carried out at 30 °C and provides anilines with 95–99% selectivities. The in situ gas product analysis demonstrates that [FeMo]S_x can catalyze the decomposition of N₂H₄ to H* species, not H₂. Combining with the kinetic analysis of the aniline generation rates from nitrobenzene and intermediates, the nitro group reduction to the nitroso group is confirmed to be the rate-determining step. The positive slope of Hammett's equation suggests that the critical intermediate in the rate-determining step is in the negative state, which suggests that the active H* should be in polar states (H^δ− and H^δ+). These findings will provide a novel route for the synthesis of substituted anilines and broaden the application of MoS_x catalysts under mild conditions.