Solid microscale porous material systems have attracted more attention in recent years due to their various potential applications, such as energy source transportations, biomedical devices, wastewater treatments, phase separations, etc. However, such systems are still plagued with many issues including fouling, mechanical fragility, inability to self‐heal, and low recyclability that restrict them for further industrial applications. Dynamic liquid‐based microscale porous material systems, especially porous surfaces and membranes, provide a new opportunity for resolving these issues and possess many benefits, such as antifouling, slippery, transparent, recovery, self‐healing, and recycling properties. This Concept is mainly concerned with how to obtain tunable microscale porous systems with dynamic liquid interfaces, and their applications from the surfaces to membranes. The authors hope this concept will attract interest of scientists in areas related to the rapid development and application of various liquid‐based porous systems.

中文翻译：

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具有动态液体界面的可调微孔系统

近年来，由于固体微尺度多孔材料系统的各种潜在应用（例如能源运输，生物医学设备，废水处理，相分离等）引起了越来越多的关注。但是，此类系统仍然存在许多问题，包括结垢，机械问题易碎，无法自我修复以及可回收性低，使它们无法用于进一步的工业应用。动态的基于液体的微米级多孔材料系统，尤其是多孔表面和膜，为解决这些问题提供了新的机会，并具有许多优点，例如防污，湿滑，透明，可回收，自修复和可回收利用。该概念主要涉及如何获得具有动态液体界面的可调谐微尺度多孔系统，及其从表面到膜的应用。作者希望这一概念将引起与各种基于液体的多孔系统的快速开发和应用有关的领域的科学家的兴趣。