posted on 2021-04-12, 17:38authored byVikramjeet Singh, Xuehu Men, Manish K. Tiwari
Highly amphiphobic
(repelling both water and low surface tension
liquids) and optically transparent surface treatments have widespread
demand. By combining a rational growth of metal–organic frameworks
(MOFs) with functionalization by environmentally safe, flexible alkyl
groups, here we present surfaces with nanohierarchical morphology,
comprising two widely differing nanoscale features. These nanohierarchical
MOF films show excellent amphiphobicity. We further present three
key features. First, we demonstrate the need to use flexible alkyl
chains to achieve low drop sliding angles and self-cleaning. Second,
our thin (∼200 nm) MOF films display excellent optical transparency
and robustness. Third, the nanohierarchical morphology enables a unique
combination of additional desirable properties, e.g., resistance to
high-speed liquid impact (up to ∼35 m/s, Weber number >4
×
104), thermal stability up to 200 °C, scratch resistance,
low ice adhesion for >10 icing/deicing cycles, stability in harsh
acidic and basic environments, and capability to remove carcinogenic
pollutants from water.