Y-mediated optimization of 3DG-PbO2 anode for electrochemical degradation of PFOS

阳极 电化学 材料科学 电解 化学工程 过电位 核化学 化学 电极 电解质 物理化学 工程类
作者
Xiaoyue Duan,Ziqi Ning,Weiyi Wang,Yitong Li,Xuesong Zhao,Liyue Liu,Wenqian Li,Limin Chang
出处
期刊:BMC chemistry [BioMed Central]
卷期号:17 (1) 被引量:2
标识
DOI:10.1186/s13065-023-01057-3
摘要

Abstract In our previous study, the three-dimensional graphene-modified PbO 2 (3DG-PbO 2 ) anode was prepared for the effective degradation of perfluorooctanesulfonat (PFOS) by the electrochemical oxidation process. However, the mineralization efficiency of PFOS at the 3DG-PbO 2 anode still needs to be further improved due to the recalcitrance of PFOS. Thus, in this study, the yttrium (Y) was doped into the 3DG-PbO 2 film to further improve the electrochemical activity of the PbO 2 anode. To optimize the doping amount of Y, three Y and 3DG codoped PbO 2 anodes were fabricated with different Y 3+ concentrations of 5, 15, and 30 mM in the electroplating solution, which were named Y/3DG-PbO 2 -5, Y/3DG-PbO 2 -15 and Y/3DG-PbO 2 -30, respectively. The results of morphological, structural, and electrochemical characterization revealed that doping Y into the 3DG-PbO 2 anode further refined the β-PbO 2 crystals, increased the oxygen evolution overpotential and active sites, and reduced the electron transfer resistance, resulting in a superior electrocatalytic activity. Among all the prepared anodes, the Y/3DG-PbO 2 -15 anode exhibited the best activity for electrochemical oxidation of PFOS. After 120 min of electrolysis, the TOC removal efficiency was 80.89% with Y/3DG-PbO 2 -15 anode, greatly higher than 69.13% with 3DG-PbO 2 anode. In addition, the effect of operating parameters on PFOS removal was analyzed by response surface, and the obtained optimum values of current density, initial PFOS concentration, pH, and Na 2 SO 4 concentration were 50 mA/cm 2 , 12.21 mg/L, 5.39, and 0.01 M, respectively. Under the optimal conditions, the PFOS removal efficiency reached up to 97.16% after 40 min of electrolysis. The results of the present study confirmed that the Y/3DG-PbO 2 was a promising anode for electrocatalytic oxidation of persistent organic pollutants.
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