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Nano- and Micro-SiO<sub>2</sub> With Integrated Green Chemistry-Based Superhydrophobic Coating for Robust Antifouling and Anticorrosion Properties

Chun‐Chiang Huang, Tsung-Yun Wu, Yu‐Sheng Chen, Hsiao‐Ying Chou, Junsheng Wang, Kao‐Shu Chuang, Kinjal J. Shah, Hsieh‐Chih Tsai

2025ACS Applied Materials & Interfaces18 citationsDOI

Abstract

With increasing energy demands, the need for coating materials with exceptional superhydrophobic properties has grown substantially. However, the widespread use of fluorinated compounds, solvents, and polymer-based synthetic materials has led to heightened levels of microplastics and pollutants. Here, we used a self-curing, solvent-free, and recyclable polyester polyol polymer material combined with (5 and 6.5 μm) micro- and nanosized SiO 2 (μ-SiO 2 and n-SiO 2 ) particles to create superhydrophobic coatings with contact angles above 170° and low roll-off angle. They were applied for self-cleaning, antifouling, and anticorrosion purposes and tested for stability in hot water, steam, and ultrasound. Both μ-SiO 2 particles mixed with n-SiO 2 exhibited excellent improvement in antifouling properties. Furthermore, 5 μm SiO 2 incorporated with n-SiO 2 demonstrated significantly higher resistance in a 62-cycle sandpaper abrasion test and maintained a contact angle above 150°, whereas this angle was lower for the 6.5 μm SiO 2 coating after 30 cycles. These results suggest that 6.5 μm SiO 2 offers less resistance to applied force due to its irregular roughness. However, in scenarios with lower forces, such as water drop tests, both coatings easily withstand a drop count of 3000. Additionally, electrochemical polarization curve analysis, AC impedance analysis, and seawater immersion tests confirmed the robust corrosion resistance of the superhydrophobic material.

Topics & Concepts

Materials scienceBiofoulingNano-NanotechnologyCoatingSuperhydrophobic coatingComposite materialBiologyMembraneGeneticsSurface Modification and SuperhydrophobicityMarine Biology and Environmental ChemistryMetal and Thin Film Mechanics
Nano- and Micro-SiO<sub>2</sub> With Integrated Green Chemistry-Based Superhydrophobic Coating for Robust Antifouling and Anticorrosion Properties | Litcius