Degradation photocatalysis of tetrodotoxin as a poison by gold doped PdO nanoparticles supported on reduced graphene oxide nanocomposites and evaluation of its antibacterial activity.

In this project, synthesis of pure and gold doped PdO-reduced graphene oxide nanocomposites by sonochemical and deposition-precipitation process was performed and characterized using X-ray diffraction (XRD), transmission electronic microscopy (TEM) and X-ray photoelectron spectroscopy (XPS) and Raman spectroscopy. The specific surface area of synthesized un-doped and Au doped PdO-RGO nanocomposites is 83.2, 109.1mg and total pore volume is 0.31, 0.40cmg, respectively. With Tetrodotoxin as a target pollutant, photocatalytic system of UV+photocatalyst+HO was set up. Some influencing parameters, including HO dosage and initial pH value were investigated and the stability of the photocatalyst was also studied during the photocatalysis. The optimum values of operating parameters were found at an initial pH value of 5.0, a HO dosage of 0.15mmol/L and photocatalyst dosage of 0.08g. Under the optimal conditions, the highest removal rate of Tetrodotoxin achieved 95%. Compared with the traditional photo-Fenton system, the UV+photocatalyst+HO system can not only improve the degradation efficiency of Tetrodotoxin, but also reduce the dosage of HO and thus reduce the processing cost. Antibacterial properties of un-doped and Au doped PdO-RGO nanocomposites were investigated by gram negative bacteria Escherichia coli and gram positive Staphylococcus aureus. The results showed that the antibacterial activity enhanced by Au PdO-RGO nanocomposites.