Stable water droplets on composite structures formed by embedded water into fully hydroxylated beta-cristobalite silica*
PUBLICATION: CHINESE PHYSICS B
AUTHORS: Gong, HQ; Qi, CH; Yang, JW; Chen, JG; Lei, XL; Zhao, L; Wang, CL
ABSTRACT
Using molecular dynamics simulations, we have revealed a novel wetting phenomenon with a droplet on composite structures formed by embedded water into (111) surface of beta-cristobalite hydroxylated silica. This can be attributed to the formation of a composite structure composed of embedded water molecules and the surface hydroxyl (-OH) groups, which reduces the number of hydrogen bonds between the composite structure and the water droplet above the composite structure. Interestingly, a small uniform strain (+/- 3%) applied to the crystal lattice of the hydroxylated silica surface can result in a notable change of the contact angles (>40 degrees) on the surface. The finding provides new insights into the correlation between the molecular-scale interfacial water structures and the macroscopic wettability of the hydroxylated silica surface.
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