Friction is a fundamental force that impacts almost all interface-related applications. Over the past decade, there is a revival in our basic understanding and practical applications of the friction. In this review, we discuss the recent progress on solid-liquid interfacial friction from the perspective of interfaces. We first discuss the fundamentals and theoretical evolution of solid-liquid interfacial friction based on both bulk interactions and molecular interactions. Then, we summarize the interfacial friction regulation strategies manifested in both natural surfaces and artificial systems, focusing on how liquid, solid, gas, and hydrodynamic coupling actions mediate interfacial friction. Next, we discuss some practical applications that are inhibited or reinforced by interfacial friction. At last, we present the challenges to further understand and regulate interfacial friction.

摩擦力是影响几乎所有界面相关应用的基本力。在过去的十年中，我们对摩擦的基本理解和实际应用有所复兴。在这篇综述中，我们从界面的角度讨论了固液界面摩擦的最新进展。我们首先讨论基于本体相互作用和分子相互作用的固液界面摩擦的基本原理和理论演变。然后，我们总结了自然表面和人工系统中表现的界面摩擦调节策略，重点关注液体、固体、气体和流体动力耦合作用如何介导界面摩擦。接下来，我们讨论一些被界面摩擦抑制或增强的实际应用。终于，