Acetic acid-assisted solution process for growth of complex copper sulfide microtubes constructed by hexagonal nanoflakes

A facile one-pot solution approach for growth of complex copper sulfide microtubes using acetic acid as an additive and controlling the molar ratio of reactants (CuCl2°·2H2O) and thioacetamide (TAA) was investigated. This simple acetic acid-assisted hydrothermal process was observed to selectively synthesize CuS microtubes, CuS spheres, and discrete hexagonal CuS nanoflakes. The one-dimensional microrods of the initial precursor [Cu-(TAA)2]Cl2 complex was shown to act as a sacrificial template for the self-aggregation and oriented growth of CuS nanoflakes. This approach could be further extended as a promising synthetic route to access other inorganic nanomaterials with complex form.