Recent experiments and molecule dynamics simulations have shown that adhesion droplets on conical surfaces may move spontaneously and directionally.Besides, this spontaneous and directional motion is independent of the hydrophilicity and hydrophobicity of the conical surfaces.Aimed at this important phenomenon,a general theoretical explanation is provided from the viewpoint of the geometrization of micro/nano mechanics on curved surfaces.In the extrinsic mechanics on micro/nano soft curved surfaces,we disclose that the curvatures and their extrinsic gradients form the driving forces on the curved spaces.This paper focuses on the intrinsic mechanics on micro/nano hard curved surfaces and the experiment on the spontaneous and directional motion.Based on the pair potentials of particles,the interactions between an isolated particle and a micro/nano hard curved surface are studied,and the geometric foundation for the interactions between the particle and the hard curved surface is analyzed.The following results are derived:(a)Whatever the exponents in the pair potentials may be, the potential of the particle/hard curved surface is always of the unified curvature form, i.e.,the potential is always a unified function of the mean curvature and the Gaussian curvature of the curved surface,(b)On the basis of the curvature-based potential,the geometrization of the micro/nano mechanics on hard curved surfaces may be realized, (c)Similar to the extrinsic mechanics on micro/nano soft curved surfaces,in the intrinsic mechanics on micro/nano hard curved surfaces,the curvatures and their intrinsic gradients form the driving forces on the curved spaces.In other words,either on soft curved surfaces or hard curved surfaces and either in the extrinsic mechanics or the intrinsic mechanics, the curvatures and their gradients are all essential factors for the driving forces on the curved spaces,(d)The direction of the driving force induced by the hard curved surface is independent of the hydrophilicity and hydrophobicity of the curved surface, explaining the experimental phenomenon of the spontaneous and directional motion.
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