Great attention has been focused on super-hydrophobic surfaces due to their fantastic applications.Fluoride chemicals are widely used to fabricate super-hydrophobic surfaces due to their convenience,simplicity,and high efficiency.Previous research has made extensively efforts on corrosion resistance of fluorinated super-hydrophobic surfaces in corrosive media.Nevertheless,rare papers focused on the underlying reasons of anticorrosion property and stability mechanism on the fluori-nated super-hydrophobic coatings in alkaline solution.Therefore,this work aims to reveal these mechanisms of fluorinated super-hydrophobic copper samples in strong alkaline solution(pH 13).Through the characterization of surface wettability and surface morphology,the laser-induced super-hydrophobic surface retained excellent stability after soaking in alkaline solution for 4 h.Through measurement of chemical compositions,the anticorrosion mechanism and stability mechanism of the fluorinated super-hydrophobic surface were proposed.Importantly,the hydroxyl ion(OH-)can further promote the hydrolysis reaction to improve the density and bonding strength of the fluoride molecules.Finally,the electrochemical experiments(PDP and EIS tests)were conducted to validate the rationality of our proposed conclusions.

Haoyang Li;Yanling Tian;Zhen Yang

School of Mechanical Engineering,Tianjin University,Tianjin 300350,China;Department of Mechanical and Aerospace Engineering,The Hong Kong University of Science and Technology,Hong Kong 999077,China

仿生工程学报（英文版）

[1]Haoyang Li;Yanling Tian;Zhen Yang-.Stability Mechanism of Laser-induced Fluorinated Super-hydrophobic Coating in Alkaline Solution)[J].仿生工程学报（英文版）,2022(01):113-125

fluori

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