The conditions of formation of a tin sulfide delta-SnS phase by galvanostatic deposition with tartaric acid were investigated, changing parameters such as pH (1.5 and 2.5) and temperature (50, 70, and 90 degrees C). Uniform films were deposited at both pH's. Cyclic voltammetry data suggested that tin-tartrate complexes were crucial to film electrodeposition and also indicated reduction of sulfur species rather than tin. X-ray diffraction showed the delta-SnS structure to be a pure phase over the range of deposition temperatures (50-90 degrees C) at pH 2.5. This observation was limited to 70 degrees C for films deposited at pH 1.5. Impurities of Sn and alpha-SnS were found in films deposited at pH 1.5 and temperatures of 50 and 90 S C, respectively, indicating that the alpha-SnS phase is more likely to be formed at lower pH's. All the films annealed at 350 degrees C displayed the alpha-SnS phase. Scanning electron microscopy showed deposited particles increased in size and became more platelike with increasing temperatures of electrodeposition, but did not change morphology with annealing. UV/vis spectrometry confirmed increased disorder in films deposited at 50 degrees C and a direct allowed optical bandgap of lower energy for the delta-SnS phase compared to that of alpha-SnS. (c) 2007 The Electrochemical Society.