Pressure-Activatable Liquid Metal Composites Flexible Sensor with Antifouling and Drag Reduction Functional Surface

材料科学 生物污染 水下 阻力 纳米技术 背景(考古学) 复合材料 海洋工程 航空航天工程 工程类 遗传学 生物 海洋学 地质学 古生物学
作者
Zeyu Ma,Shan Lu,Yuhao Wu,Xiaodong Zhang,Yufan Wei,Fagla Jules Mawignon,Liguo Qin,Lei Shan
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:15 (47): 54952-54965 被引量:24
标识
DOI:10.1021/acsami.3c12910
摘要

Flexible sensors produced through three-dimensional (3D) printing have exhibited promising results in the context of underwater sensing detection (for applications in navigational vehicles and human activities). However, underwater vehicles and activities such as swimming and diving are highly susceptible to drag, which can cause negative impacts such as reduced speed and increased energy consumption. Additionally, microbial adhesion can shorten the service life of these vehicles. However, natural organisms are able to circumvent such problems, with shark skin offering excellent barrier properties and ruffled papillae providing effective protection against fouling. Here, we show that a sandwich system consisting of a spraying layer, conductive elastomer composite, and encapsulation layer can be printed for multifunctional integrated underwater sensors. The modulated viscoelastic properties of liquid metal form the foundation for printing features, while its pressure-activated properties offer the potential for switchable sensors. An integrated drag reduction and antifouling layer were created by combining the shark skin surface shield scale structure with the lotus leaf surface papillae structure. A 3D-printed flexible sensor was designed using our approach to monitor attitude changes and strain in underwater environments, showcasing its capabilities. Our printed sensors can reduce biological attachment density by more than 50% and reduce underwater drag by 8.6-10.3%.
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