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JOURNAL OF MECHANICAL ENGINEERING  > 2020  >  33(3): 343-348.
Wei-yi Liu, Meng-fan Luo, Fang Luo, Yan Liu, Yan-zong Zhang, Fei Shen, Xiao-hong Zhang, Yang Gang, Wang Li-lin, Deng Shi-huai. Three-Dimensional Cu-Ni Composite Superamphiphobic Surface via Electrodeposition and Fluorosilane Modification[J]. JOURNAL OF MECHANICAL ENGINEERING, 2020, 33(3): 343-348. doi: 10.1063/1674-0068/cjcp1905109
Citation: Wei-yi Liu, Meng-fan Luo, Fang Luo, Yan Liu, Yan-zong Zhang, Fei Shen, Xiao-hong Zhang, Yang Gang, Wang Li-lin, Deng Shi-huai. Three-Dimensional Cu-Ni Composite Superamphiphobic Surface via Electrodeposition and Fluorosilane Modification[J]. JOURNAL OF MECHANICAL ENGINEERING, 2020, 33(3): 343-348. doi: 10.1063/1674-0068/cjcp1905109
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Three-Dimensional Cu-Ni Composite Superamphiphobic Surface via Electrodeposition and Fluorosilane Modification

doi: 10.1063/1674-0068/cjcp1905109
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  • Corresponding author: Yan-zong Zhang, E-mail:yzzhang@sicau.edu.cn
  • Received Date: 30 May 2019
  • Accepted Date: 30 Aug 2019
  • Publish Date: 17 Mar 2020
    Abstract
  • A superamphiphobic (SAP) surface was fabricated by electrodepositing Cu-Ni micro-nano particles on aluminum substrate and modifying via 1H, 1H, 2H, 2H-perfluorodecyltrimethoxysilane. Scanning electron microscopy, X-ray diffraction, energy-dispersive X-ray spectroscopy, and Fourier-transform infrared spectroscopy were employed to investigate the morphology and chemical composition. The results showed that the SAP surface had three-dimensional micro-nano structures and exhibited a maximum water contact angle of 160.0$ ^{\circ} $, oil contact angle of 151.6$ ^{\circ} $, a minimum water slide angle of 0$ ^{\circ} $ and oil slide angle of 9$ ^{\circ} $. The mechanical strength and chemical stability of the SAP surface were tested further. The experimental results showed that the SAP surface presented excellent resistance to wear, prominent acid-resistance and alkali-resistance, self-cleaning and anti-fouling properties.

     

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