Journal
ACS APPLIED MATERIALS & INTERFACES
Volume 15, Issue 21, Pages 26000-26015Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsami.3c03577
Keywords
mussel-inspired polydopamine; superhydrophobic coating; hierarchical roughness structure; mechanical durability; anti-icing; self-cleaning
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In this study, an environment-friendly and self-adhesive superhydrophobic polydopamine coating was successfully developed. The coating exhibited ideal static contact angle and roll-off angle through self-assembly technique. It showed tight internal compactness, excellent mechanical robustness, and significant mechanical stability. Furthermore, the coating had obvious self-cleaning properties and enhanced ice repellence and mechanical durability.
Superhydrophobic coatings play a crucial role in self-cleaningand anti-icing infrastructure areas under harsh service environmentssuch as very low temperature, strong wind, and sand impact. In thepresent study, an environment-friendly and self-adhesive superhydrophobicpolydopamine coating inspired by mussels had been successfully developedand its growth process was accurately regulated by formula and reactionratio optimization. The preparation characteristic and reaction mechanism,surface wetting behavior, multi-angle mechanical stability, anti-icing,and self-cleaning tests were systematically investigated. The resultsshowed that the superhydrophobic coating achieved an ideal staticcontact angle of 162.7 degrees and a roll-off angle of 5.5 degrees throughthe proposed self-assembly technique in an ethanol-water solvent.This was due to the coupling effect of constructing a hierarchicalroughness structure on the coating surface and reducing its surfaceenergy, which had been well documented by the surface morphology characteristicand chemical structure analysis. The as-prepared coating'sself-mechanical performances (tensile strength/shear holding power)and surface wear resistance (sand impact/sandpaper abrasion) behaviorswere tested, and results showed tight internal compactness and excellentmechanical robustness, respectively. Furthermore, the 180 degrees tape-peelingon 100 cycles and pull-off adhesion tests indicated that the abovecoating had significant mechanical stability and an increased percentage(57.4%) of interface bonding strength (27.4 MPa) with steel substratecompared to pure epoxy/steel. This was attributed to the metal chelatingcapacity between polydopamine catechol moieties and steel. Finally,the superhydrophobic coating had obvious self-cleaning propertiesby using graphite powder as a contaminant. Additionally, the coatinghad a higher supercool pressure and displayed much-reduced icing temperature,a longer icing delay time, and an extremely low and stable ice adhesionstrength (0.115 MPa) owing to the extreme water-repellence and mechanicaldurability.
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