posted on 2022-08-19, 07:40authored byZhonggang Zhang, Binghe Ma, Tao Ye, Wei Gao, Guangyao Pei, Jian Luo, Jinjun Deng, Weizheng Yuan
Flexible superomniphobic doubly re-entrant (Dual-T) microstructures
inspired by springtails have attracted growing attention due to their
excellent liquid-repellent properties. However, the simple and practical
manufacturing processes of the flexible Dual-T microstructures are
urgently needed. Here, we proposed a one-step molding process coupled
with the lithography technique to fabricate the elastomeric polydimethylsiloxane
(PDMS) Dual-T microstructure surfaces with high uniformity. The angle
between the downward overhang and the horizontal direction could reach
90° (vertical overhang). The flexible superomniphobic Dual-T
microstructure surfaces, without fluorination treatment and physical
treatments, could repel liquids with a surface tension lower than
20 mN m–1 in the Cassie–Baxter state. Owing
to the excellent robustness of the one-step molding downward overhanging,
the max breakthrough pressure of this surface could reach up to 164.3
Pa for ethanol droplets. Furthermore, the flexible superomniphobic
Dual-T surface allowed impinging ethanol droplets to completely rebound
at the Weber number up to 7.1 with an impact velocity of ∼0.32
m s–1. The Dual-T microstructure surface maintained
excellent superomniphobicity even after surface oxygen plasma treatment
and exhibited excellent structural robustness and recoverability to
various large mechanical deformations.