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Synthesis and sustainable application of fluorosilicon-based superhydrophobic coatings for high-salt wastewater treatment: A short two-step method

Zhigen Wu, Zihan Yan, Chenzhen Ji, Dan Zhou, Mohammad Harris, Hongwei Wu

2025Energy & Environmental Sustainability6 citationsDOIOpen Access PDF

Abstract

A fluorosilicon-based superhydrophobic coating (ER-SiO 2 /PVDF/SFT) was engineered by a novel non-hydrolytic two-step methodology, demonstrating exceptional fouling resistance in hypersaline wastewater treatment. The coating achieved a water contact angle of 154.3 ​± ​0.5°, representing a 12 ​% increase over epoxy resin (ER) reference coatings – and effectively repelled organic contaminants (ethylene glycol contact angle: 148.8 ​± ​1.8°). Antifouling efficiency reached 70 ​% against CaCO 3 fouling deposits in simulated two kinds of high-salt fouling solution, attributable to ultralow surface energy and biomimetic hierarchical roughness. Long-term thermal fouling tests revealed <5 ​% hydrophobicity decay, which would save energy in thermal evaporation. The short two-step method not only prevents fouling with minimal operational complexity but also facilitates easy reapplication, reducing material waste and chemical usage while supporting a circular economy in industrial water reuse. This scalable, low-waste coating supports Zero Liquid Discharge (ZLD) initiatives and UN Sustainable Development Goals 6 and 12, making it ideal for industrial applications and sustainable resource consumption. • A superhydrophobic coating named ER-SiO 2 /PVDF/SFT is prepared by two step method. • The superhydrophobic coating increased the WCA of the substrate dramatically. • The anti-fouling efficiency of ER-SiO 2 /PVDF/SFT coating is over 70 ​%. • The CA of ER-SiO 2 /PVDF/SFT coating still retains 145° after 7-day fouling tests. • Preparation of superhydrophobic coatings by a shorting two-step method is feasible.

Topics & Concepts

FoulingCoatingBiofoulingMaterials scienceContact angleWastewaterSuperhydrophobic coatingSubstrate (aquarium)Surface energyChemical engineeringWettingWaste managementEnvironmentally friendlyThermalPulp and paper industryIndustrial wastewater treatmentThermal energyComposite materialNanotechnologyProcess engineeringMembrane foulingEnvironmental scienceAdhesiveSurface Modification and SuperhydrophobicityAerogels and thermal insulationMembrane Separation Technologies
Synthesis and sustainable application of fluorosilicon-based superhydrophobic coatings for high-salt wastewater treatment: A short two-step method | Litcius