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Enhanced Corrosion and Microbial Resistance of Copper via Picosecond Laser–FAS Modification

腐蚀 材料科学 介电谱 润湿 接触角 生物污染 电化学 极化(电化学) 冶金 复合材料 图层(电子) 复合数 化学工程 铜水管的冲蚀腐蚀 粘附 皮秒 表面改性 电接点
作者
C Q Wang,Wei Zhang,Yuanshuo Qiu,Xi Zhang,Tengfei Sun,Hongliang Liu,Hongyu Zheng
出处
期刊:Advanced Engineering Materials [Wiley]
标识
DOI:10.1002/adem.71061
摘要

Copper has gained significant attention due to its excellent physicochemical properties. However, its susceptibility to biofouling and corrosion significantly limits its application, leading to substantial economic losses. Although laser texturing, fluorinated modification, and electrochemical evaluation of copper have been studied separately, the combined application of picosecond laser treatment and fluoroalkylsilane (FAS) modification, together with biologically conditioned electrochemical evaluation, remains insufficiently explored. This study develops a superhydrophobic protective layer on copper surfaces using a composite modification technique that integrates picosecond laser treatment with FAS. The wetting behavior, adhesion characteristics, and corrosion resistance of the modified surfaces under biofouling conditions were systematically evaluated. The resulting surface exhibited a static contact angle (CA) of 156° ± 0.47° and a low rolling angle of 6° ± 0.5°. Corrosion resistance was evaluated through potentiodynamic polarization (PDP) and electrochemical impedance spectroscopy (EIS). Electrochemical tests confirmed the modified layer effectively mitigated electrochemical corrosion of copper in bacterial suspensions, as evidenced by a reduced corrosion current, a positive shift in corrosion potential, and an increased polarization resistance. The results indicate that the picosecond laser–FAS composite treatment significantly enhances the antimicrobial adhesion resistance and corrosion resistance of copper surfaces, supporting potential applications in infrastructure, marine engineering, and healthcare.
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