Suzhou Nutpool Materials Technology Co., Ltd

Controlled propulsion of liquid droplets on a solid surface offers important applications in various fields, including fog harvesting, heat transfer, microfluidics and micro device technologies. The propulsion of the liquid droplet is realized only if the driven force exceeds the resistance force. Sometimes the directional propulsion of droplets only takes place at the Leidenfrost state to achieve enough lubrication for a vapor cushion. The thick vapor cushions levitate liquid droplets to reduce resistance force. However, it is still challenging to reduce the vapor cushion thickness and simultaneously realize the directional droplet’s motion, especially below the Leidenfrost temperature. Here, a structurally hydrophobic boron nitride-nanosheet grid surface was constructed with two-direction topographical gradient, i.e., the perpendicular altitude gradient and the horizontal density gradient. The polar nature of the B-N bonds results in intrinsic hydrophilicity of the boron nitride layer, which increases the Leidenfrost point and facilitates wetting even at high temperature. Much thinner vapor-lubricating layers are competent in the droplet’s directional motion below the Leidenfrost temperature of the BNNS grid surface because the air gap trapped within boron nitride-nanosheet grids acts as a part of the lubrication layer.