Preparation and shape evolution of cuprous oxide in the solution phases of copper (II) dodecyl sulfate

Abstract

In this paper, the functionalized surfactant of copper dodecyl sulfate [Cu(DS) 2] was used both as the metal ion source and as the modifier to investigate the preparation and shape evolution of cuprous oxide (Cu 2O). The increase of Cu(DS) 2 concentration from 0.27 to 6.82 mM caused the morphological change of Cu 2O crystals from the truncated cubic to the cuboctahedral, then to the coexistence of the cubic and the truncated octahedral, and finally to the truncated octahedrons. As an experimental control, the inorganic salt of copper (II) chloride was also used as the metal ion source to conduct the precipitation of Cu 2O. These results indicate that the special adsorption of organic counterions (i.e., dodecyl sulfate ions) exerted a great influence on the shape control of Cu 2O crystals, especially at a relatively low concentration. Meanwhile, the d-glucose concentration and the incubation time of crystals were also considered. In conclusion, the competitive adsorption of surfactant ions and d-glucose molecules onto crystalline faces, as well as the aging time, accounted jointly for the shape control of Cu 2O crystals.