Insights into the Mechanical Properties of Ultrathin Perfluoropolyether–Silane Coatings

硅烷 材料科学 复合材料 缩进 涂层 粘附 表面能 基质(水族馆) 海洋学 地质学
作者
Oliver Zhao,David W. Collinson,Shinsuke Ohshita,Masato Naito,Nozomi Nakano,Grégory Tortissier,Takashi Nomura,Reinhold H. Dauskardt
出处
期刊:Langmuir [American Chemical Society]
卷期号:38 (20): 6435-6442 被引量:5
标识
DOI:10.1021/acs.langmuir.2c00625
摘要

Ultrathin perfluoropolyether-silane (PFPE-silane) films offer excellent functionality as antifingerprint coatings for display touchscreens due to their oleophobic, hydrophobic, and good adhesion properties. During smartphone use, PFPE-silane coatings undergo many abrasion cycles which limit the coating lifetime, so a better understanding of how to optimize the film structure for improved mechanical durability is desired. However, the hydrophobic and ultrathin (1-10 nm) nature of PFPE-silane films renders them very difficult to experimentally characterize. In this study, the cohesive fracture energy and elastic modulus, which are directly correlated with hardness and better wear resistance of 3.5 nm-thick PFPE-silane films were, respectively, measured by double cantilever beam testing and atomic force microscopy indentation. Both the cohesive fracture energy and modulus are shown to be highly dependent on the underlying film structure. Both values increase with optimal substrate conditions and a higher number of silane groups in the PFPE-silane precursor. The higher cohesive fracture energy and modulus values are suggested to be the result of the changes in the film chemistry and structure, leading to higher cross-linking density. Therefore, future work on optimizing PFPE-silane film wear resistance should focus on pathways to improve the cross-linking density. Subcritical fracture testing in humid environments reveals that humidity negatively affects the fracture properties of PFPE-silane films.
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