Preparation of phosphorus-doped tungsten trioxide nanomaterials and their photocatalytic performances
2021
Sun, Jiayu | Li, Bihan | Wang, Qi | Zhang, Ping | Zhang, Yulei | Gao, Li | Li, Xiaochen
In this study, a highly efficient and stable phosphorus-doped Tungsten trioxide (P-WO₃) photocatalyst was successfully synthesized using a combination of hydrothermal and post-calcination method. The microstructures, morphologies and optical properties of the obtained WO₃ and P-WO₃ samples were characterized. The results showed that P was uniformly doped into the WO₃ lattice in a pentavalent-oxidation state (P⁵⁺). The charge carrier traps were also formed, which could accept the photoelectrons. Furthermore, the band gap energy was reduced from 2.4 to 2.33 ev. The photocatalytic performance of the obtained P-WO₃ samples with different P concentrations were then tested by photocatalytic degradation of methyl blue (MB). It was found that the 6%-P-WO₃ sample exhibited the highest photocatalytic activity, with 96% of MB being able to be degraded within 120 min, which was more than four times higher than that of the pure WO₃. The practicality of the prepared P-WO₃ was also evaluated using samples from two domestic wastewater treatment plants. The P-WO₃ had a high photodegradation performance in treating low concentration of organic matters from real wastewater. The photocatalysis of P-WO₃ could be mainly initiated by the production of hydroxyl radical (·OH) and photogenerated hole (h⁺).
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