相变润滑剂注入表面的温度驱动可持续防结垢技术

IF 6.8 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Science China Materials Pub Date : 2024-07-15 DOI:10.1007/s40843-024-2895-4

Maosheng Ye, Wei Chen, Yixuan Wang, Ran Zhao, Wuyi Xiao, Jiexin Li, Jingxin Meng, Shutao Wang

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引用次数: 0

摘要

使用注入润滑剂的表面（LIS）是一种非常有前景的方法，可减轻细菌、冰和水垢等各种来源的污染。然而，这些润滑剂的天然液体特性经常会导致它们在不利环境中耗尽，从而无法防止结垢。在此，我们报告了相变润滑剂注入表面（PCLIS）的可持续防垢性能。在低于 PCL 熔点（T <Tm）的温度下，其固态具有高度的稳定性，从而提高了抗结垢能力。此外，抗结垢能力还来自于其光滑的形态以及在液态（T > Tm）下降低的结垢附着力。因此，这项研究为解决实际应用中的缩放问题（尤其是涉及温度变化的应用）提供了一种可行的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Temperature-driven sustainable anti-scaling on phase-change lubricant-infused surface

The use of lubricant-infused surfaces (LIS) presents a highly promising approach to mitigating contamination from various sources, including bacteria, ice, and scale. However, these lubricants’ natural liquid characteristics frequently cause them to run out in adverse environments, which results in a failure to prevent fouling. Here, we report the sustainable anti-scaling performance of a phase-change lubricant-infused surface (PCLIS). The increased resistance is ascribed to a high degree of stability in the solid state at temperatures below PCL’s melting point (T < T_m). Furthermore, the anti-scaling capability comes from its smooth morphology and reduced scale adhesion in liquid state (T > T_m). As a result, this work offers a viable method to deal with scaling problems in real-world applications, especially those that involve temperature changes.

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来源期刊

Science China Materials Materials Science-General Materials Science

CiteScore

11.40

自引率

7.40%

发文量

949

期刊介绍： Science China Materials (SCM) is a globally peer-reviewed journal that covers all facets of materials science. It is supervised by the Chinese Academy of Sciences and co-sponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China. The journal is jointly published monthly in both printed and electronic forms by Science China Press and Springer. The aim of SCM is to encourage communication of high-quality, innovative research results at the cutting-edge interface of materials science with chemistry, physics, biology, and engineering. It focuses on breakthroughs from around the world and aims to become a world-leading academic journal for materials science.