writer:Zhenyu Guo, Bo Peng, Yufang Liu, Jinghui Li, Wenle Pei, Qunyang Li,* and Yongmei Zheng*
keywords:anti-icing
source:期刊
specific source:Adv. Mater. Interfaces 2020, 7, 1901714
Issue time:2020年
Inspired by the features of natural pine needle, a superhydrophobic concave�cone pillar surface (CCPS) is designed by using polymer via soft lithography
and printing methods. CCPS has the characterizes of unique flexible perfor�mance and concave conical geometry to lower adhesion between liquid/ice–
solid interfaces, thus as-frozen ice droplet can be easily detached by tilting or
a slight shear flow. Comparing to normal cone pillar surface, CCPS achieves
excellent deicing ability, attributed to unique antipinning effect between ice
and concave-cone pillars, which is demonstrated by force characterization.
This finding offers an insight into design of novel icephobic/anti-icing sur�faces and materials that can be extended into some applied realms for solving
icing problems, e.g., transmission line, traffic road, aircraft wing, etc.