Enhanced photocatalytic activity of flowerlike Cu 2O/Cu prepared using solvent-thermal route

Abstract

Cu 2O/Cu nanocomposites (NCs) with flowerlike nano-architecture were prepared using template-free stepwise solvent-thermal synthesis route with Cu(NO 3) 2·3H 2O as a precursor. With the precursor concentration increasing gradually from 0.01 to 0.1 M, the morphology of the NCs evolves from nano-flower to microsphere. The content of Cu in the NCs can be easily controlled by adjusting the concentration of precursor and synthesis time. Using photocatalytic degradation of monoazo dye Procion Red MX-5B (PR) and phenol as the probe molecules under visible-light illumination, we have investigated the influence of Cu on the photocatalytic activity of Cu 2O. When the content of Cu lies in the range of 27–71 wt%, the samples exhibit higher photocatalytic performance, indicating that these flowerlike Cu 2O/Cu NCs are promising candidates for pollutant processing.