PNNL

Abstract

Ammonia is promising as a sustainable carbon-free fuel through catalytic oxidation to dinitrogen. We report the catalytic chemical oxidation of ammonia by an Earth-abundant transition metal complex, trans [LFeII(MeCN)2][PF6]2, where L is a macrocyclic ligand bearing four N-heterocyclic carbene (NHC) donors. Using triarylaminium radical cations in MeCN, up to 182 turnovers of N2 per Fe were obtained from chemical catalysis with an extremely low loading of the Fe catalyst (0.004 mol %). The chemical catalysis was successfully transitioned to mediated electrocatalysis, which is reported for the first time for the oxidation of ammonia. Molecular electrocatalysis by the Fe catalyst and the mediator (p-MeOC6H4)3N exhibited a catalytic half-wave potential (Ecat/2) of 0.18 V vs [Cp2Fe]+/0 by cyclic voltammetry, and achieved 9.3 turnovers of N2 at an applied potential of 0.20 V vs [Cp2Fe]+/0 at -20 °C in controlled-potential electrolysis, with a Faradaic efficiency of 75%.