 We demonstrated the formation of 1D snow slash snow 2 hybrid nanostructures through the use of tin, 2, oxalate as a single source precursor. The resulting structures exhibited both tin monoxide and tin dioxide phases, which could be tuned by varying the concentration of tin, 2, oxalate and the calcination temperature. Additionally, we observed a decrease in the bandgap energy of the SN ox slash snow 2 hybrid nanostructure from 3.53.7EV to 2.93.0EV when increasing the calcination temperature. This suggests that these hybrid nanostructures may have potential applications in optoelectronic devices such as photovoltaics or photocatalysis. This article was authored by Kazuhiro Monseki, Said Vafii, Loren Scott and others.