Bioinspired Silicone-Epoxy Coatings: Combining Cycloaliphatic Resins and Tetrasulfide Bonds for Enhanced Anticorrosion and Antifouling Performance

生物污染 环氧树脂 硅酮 材料科学 复合材料 化学工程 高分子化学 高分子科学 化学 生物化学 工程类
作者
Junjie Huang,Yuan Cao,Hongping Xiang
出处
期刊:Industrial & Engineering Chemistry Research [American Chemical Society]
卷期号:64 (11): 5805-5817 被引量:3
标识
DOI:10.1021/acs.iecr.4c04473
摘要

Marine biofouling and seawater corrosion present significant economic challenges to the marine industry. While polymer coatings can effectively delay these processes, traditional coatings often release harmful substances, leading to environmental contamination. Silicone-based fouling release coatings (FRCs) improve antifouling performance by minimizing adhesion with marine organisms, but their low mechanical strength and poor substrate adhesion limit their broader application. This study combines the mechanical properties of cycloaliphatic silicone-epoxy resins with the antimicrobial capabilities of the tetrasulfide (S–S–S–S) bonds in bis(γ-triethoxysilylpropyl)tetrasulfide (Si-69) to address these limitations. Under UV irradiation, cycloaliphatic silicone-epoxy resins form a cross-linked network, ensuring excellent mechanical strength and strong substrate interactions. Simultaneously, Si-69 forms silicon–oxygen–metal (Si–O–M) bonds while maintaining the stability of the S–S–S–S bonds within the coating. The resulting UV-curable coating demonstrated superior antifouling and anticorrosion performance. It achieves a maximum tensile strength of 18.5 MPa, a hardness of 4 H, and strong adhesion to substrates under both dry (3.5 MPa) and wet (3.9 MPa) conditions. The antimicrobial activity of the S–S–S–S bonds enhances the resistance to protein and diatom adhesion. These results demonstrate the potential of this coating for high-performance FRCs in marine environments and its applications in wastewater treatment facilities, heat exchangers, and biomedical devices.
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