Evaporation of Saline Droplets on a Superhydrophobic Substrate: Formation of Crystal Shell and Legs

We studied the evaporation-driven crystallization in the droplets of sodium acetate anhydrous (CH3COONa) aqueous solution, which were deposited on superhydrophobic substrates. The results reveal distinct crystallization behaviors between saturated and unsaturated droplets under identical experimental conditions. Specifically, unsaturated droplets could form a quasi-spherical crystal shell on the superhydrophobic substrate, while saturated droplets could develop crystal legs between the droplet and substrate when the crystal shell formed. Subsequently, the saturated droplet was lifted off the substrate by the growing crystal legs. The formation of crystal shell was closely associated with the evaporation from the droplet surface and the internal convection inside the droplet. The formation of crystal legs was induced by the heterogeneous nucleation effect caused by the substrate of SiO2 nanoparticles. These findings provide valuable insights into regulating the morphology of salt crystallization through adjustments in salt solution concentration and substrate surface structure.

Automated summary

This study investigates the evaporation-driven crystallization in droplets of sodium acetate anhydrous (CH3COONa) aqueous solution deposited on superhydrophobic substrates, and reveals distinct crystallization behaviors between saturated and unsaturated droplets. Unsaturated droplets form a quasi-spherical crystal shell, while saturated droplets develop crystal legs between the droplet and substrate.