Synthesis of h-MoO3 nanorods and h-/α-MoO3 composites and their photocatalytic performance

Abstract

A facile hydrothermal route for the synthesis of h-MoO3 nanorods and h-/α-MoO3 composites was proposed. XRD, TG−DSC, FESEM−EDX, TEM, FT-IR, Raman, photoluminescence (PL) and UV−vis DRS spectroscopy were used to characterize the as-synthesized products. h-MoO3 was formed when the liquid/solid ratio of the raw materials was 2:1 and 5:1. However, homogeneous h-/α-MoO3 composites were obtained when the liquid/solid ratio was increased to 8:1 and 12:1. A possible mechanism by which h-MoO3 is formed, and its transformation into α-MoO3 were investigated. h-MoO3 annealing was found to comprise three mass-loss stages; i.e., the removal of each of the following: physically adsorbed water, residual ammonium, and coordinated water. Both h-MoO3 nanorods and h-/α-MoO3 composites demonstrated excellent visible-light-driven photocatalytic performance with regard to methylene blue degradation. The superior degradation efficiency of the h-/α-MoO3 composites was ascribed to a lower recombination rate of electron−hole pairs, a reduced band gap energy, and an enhanced synergistic effect.