Abstract
Earth abundant Cu(2)ZnSnS(4) nanoparticle inks were deposited on molybdenum foil substrates and subsequently converted to high quality thin film Cu(2)ZnSn(S,Se)(4) photovoltaic absorbers. Integration of these absorbers within a thin film solar cell device structure yields a solar energy conversion efficiency which is comparable to identical devices processed on rigid glass substrates. Importantly, this is only achieved when a thin layer of molybdenum is first applied directly to the foil. The layer limits the formation of a thick Mo(S,Se) (x) layer resulting in a substantially reduced series resistance.