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Introduction to the biomimetic design of interfacial materials for water overflow control
Chemical Communications ( IF 4.3 ) Pub Date : 2022-07-26 , DOI: 10.1039/d2cc03224d Zhuoxing Liu 1, 2 , Jia Peng 1, 2 , Cunlong Yu 1, 2 , Zhichao Dong 1, 2
Chemical Communications ( IF 4.3 ) Pub Date : 2022-07-26 , DOI: 10.1039/d2cc03224d Zhuoxing Liu 1, 2 , Jia Peng 1, 2 , Cunlong Yu 1, 2 , Zhichao Dong 1, 2
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The overflow behavior of liquid at a curved surface or a surface border is a common phenomenon in many circumstances of daily life and industry. Accurate control of overflow is beneficial for improving the convenience of our daily life and efficiency of production, thus has great importance not only for enhancing existing applications but for creating new products. The effect of surface wettability on overflow has not been paid enough attention in the past, however, as the development of construction techniques, especially 3D printing, of superwettable surfaces and the understanding of the dynamic interfacial wetting properties, the potential of surface wettability and structure on the overflow control has gained great recognition in the recent decade. On this basis, the feature article will outline the understanding evolution of the overflow phenomenon, and summarise the current research on the control of overflow behavior from aspects including the bioinspired idea, the fabrication of superwettable surfaces, the development of control techniques, the exploration of control mechanisms, etc., and provide an outlook for the accurate control of overflow by surfactant and additives, along with challenges and perspectives.
中文翻译:
溢水控制界面材料的仿生设计介绍
液体在曲面或曲面边界处的溢出行为是日常生活和工业中许多情况下的普遍现象。精确控制溢流有利于提高我们日常生活的便利性和生产效率,因此不仅对改进现有应用程序,而且对创造新产品都具有重要意义。过去,表面润湿性对溢流的影响一直没有得到足够的重视,然而,随着超润湿表面构建技术,尤其是 3D 打印技术的发展以及对动态界面润湿特性、表面润湿潜力和结构的理解近十年来,关于溢流控制的研究得到了极大的认可。以这个为基础,等,并为表面活性剂和添加剂的精确控制溢出提供了展望,以及挑战和前景。
更新日期:2022-07-26
中文翻译:
溢水控制界面材料的仿生设计介绍
液体在曲面或曲面边界处的溢出行为是日常生活和工业中许多情况下的普遍现象。精确控制溢流有利于提高我们日常生活的便利性和生产效率,因此不仅对改进现有应用程序,而且对创造新产品都具有重要意义。过去,表面润湿性对溢流的影响一直没有得到足够的重视,然而,随着超润湿表面构建技术,尤其是 3D 打印技术的发展以及对动态界面润湿特性、表面润湿潜力和结构的理解近十年来,关于溢流控制的研究得到了极大的认可。以这个为基础,等,并为表面活性剂和添加剂的精确控制溢出提供了展望,以及挑战和前景。
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