Fabrication of superhydrophobic self-cleaning Ni-Co-MoS2/Ni composite coating

This work investigated the parallel magnetically assisted jet electrodeposition of Ni-Co-MoS2/Ni superhydrophobic composite coatings. As a comparison, the effect of the magnetic field on Ni-Co alloy coatings was analyzed. Then, micro/nano MoS2/Ni particles were further added to study the performance of Ni-Co-MoS2/Ni composite coatings under different concentrations of micro/nano particles. Research indicated that the Ni-Co-MoS2/Ni composite coating surface exhibits coral like micro/nano structures, and the micro/nano structures became denser as the concentration of micro/nano particles increased. The superhydrophobic composite coatings were obtained without any chemical modification reagents. The contact angle of the superhydrophobic composite coating was as high as 153.2° and the sliding angle was 8.7° when the amount of micro/nano particles was added at 5 g/L. The coral like micro/nano structures of the composite coating provided additional air cushion to support surface water droplets and exhibited excellent self-cleaning performance. In addition, the composite coating also showed excellent corrosion resistance and wear resistance, which was still relatively intact after friction, only exhibiting few wears on coral like micro/nano structures, it still maintained a good silver mirror effect after friction. This work suggested that parallel magnetically assisted jet electrodeposition could fabricate superhydrophobic composite coatings with excellent performance.