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Facile fabrication of robust superhydrophobic aluminum surfaces with enhanced corrosion protection and antifouling properties
Date Issued
01-01-2022
Author(s)
Rasitha, T. P.
Vanithakumari, S. C.
Nanda Gopala Krishna, D.
George, R. P.
Srinivasan, R.
Philip, John
Abstract
Despite the progress made on superhydrophobic (SHP) coatings, a key challenge is the ability to fabricate mechanically robust SHP surface. Here, we report findings of the fabrication and characterization of a mechanically robust SHP aluminum (Al) surface with enhanced corrosion resistance and reduced biofouling. The new coating consists of a top hydrophobic layer of hexamethyldisilazane modified nano-silica (low surface energy material) and a middle connecting layer of hydrolyzed glycidoxypropyltrimethoxysilane that is covalently bonded to the SHP surface and hydrophilic aluminum substrate. XPS analysis of the SHP coating confirms –O-Si-CH3 groups. SHP coating showed multi-scale fractal morphology with a fractal dimension of 2.2, and asperities of length scale 32 and 630 nm. The maximum water contact angle (WCA) of the SHP surface was 170 ± 1.5° with a sliding angle ~1°. The SHP surface showed good self-cleaning ability for both the hydrophobic and hydrophilic contaminant. Less than 5% detachment of coating after cross-hatch adhesion test (ASTM D3359-09) and the retention of superhydrophobicity up to 150 cm in the abrasion test (ASTM D4060), confirm the mechanical robustness of the fabricated superhydrophobic surface. A two order reduction in the corrosion current density, and a corrosion inhibition efficiency of ~99% was observed in SHP surface compared to the bare sample. SHP sample showed poor adhesion to gram-negative and gram-positive bacterial strains and the superhydrophobicity was retained even after folding, shear abrasion test, cross-hatch tape adhesion test, and immersion in 0.1 M NaCl solution. Several new insights into the relationship between surface topography, fractal dimensions, self-cleaning process, anticorrosion and bacterial attachment are obtained. Our work provides a framework to develop mechanically robust SHP coating with enhanced corrosion resistance, and antifouling capabilities.
Volume
162