Hydrothermal preparation of a novel indium doped MoO 3 photocatalyst with enhanced photocatalytic activity for Rhodamine B degradation

In this work, a simple one-step hydrothermal approach was used to successfully manufacture a novel indium doped molybdenum trioxide (In-MoO 3 ) photocatalyst for enhancing the photocatalytic degradation of Rhodamine B (RhB) under simulated light. The structural characterization of In-MoO 3 confirms successful addition of indium ions to the MoO 3 lattice. Importantly, the performance of the doped samples was significantly enhanced when the doping mass of indium accounted for 5 % under simulated light, and the RhB degradation rate reached 96.2 %. Even after four cycles, the doped sample proved to maintain excellent cycling stability. The proposed photocatalytic mechanism for the RhB degradation by In-MoO 3 is presented. It is revealed that center dot OH acts as the primary active species in this photocatalytic system, while center dot O (-)(2) also plays a supporting role. Indium doping improves the light absorption and effectively reduces the interfacial charge transfer resistance and bandgap width, leading to significant progress in the photocatalytic performance of MoO 3 .