N-doped carbon-coated Cu2O nanowire arrays on copper foam for rapid and stable water disinfection
2022
Wang, Shuting | Dong, Liting | Zhang, Mutian | Cheng, Frank | Chen, Shougang
High-speed, low-cost and long-term water disinfection method is important for us to away from waterborne diseases. Nanowires-modified electrodes can inactivate microorganisms under low energy consumption. However, small processing capacity remains a major obstacle for practical application. In this study, we coated N-doped carbon layer on Cu₂O NWs to improve the conductivity and stability for electrodes. Compared with Cu₂O, the work functions of Cu₂O-PANI structures is 3.623 eV, indicating the electrodes can prevent the recombination of electron-hole pairs and improve the carrier transport efficiency. In addition, Mulliken charge density showed that Cu₂O-PANI structure reduce the oxidation trend of Cu atom and improve the stability of electrodes. Besides, the Cu₂O NWs@NC electrodes showed excellent disinfection performance for E. coli and S. aureus, which can achieve 99.9% sterilizing rate under high flux (1200 mL min⁻¹). Under this condition, the electrodes can continuously treat 576 L wastewater, which is about 10-folds handling capacity than others. Moreover, the bactericidal mechanism is synergistic of electroporation and reactive oxygen species, and the main ROS were electrons, OH and O₂–. Therefore, this electrodes has a great prospect for rapid and stable water treatment system.
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