A method for the reduction of a manganese nitride to ammonia is reported, where light driven proton-coupled electron transfer enables the formation of weak N-H bonds. Photoreduction of (sal(tBu))(MnN)-N-V to ammonia and a Mn(II) complex has been accomplished using 9,10-dihydroacridine and a combination of an appropriately matched photoredox catalyst and weak Bronsted acid. Acid-reductant pairs with effective bond dissociation free energies between 35 and 46 kcal/mol exhibited high efficiencies. This light-driven method may provide a blueprint for new approaches to catalytic homogeneous ammonia synthesis under ambient conditions.