Bio-inspired Microtextures Dramatically Enhance Long-term Entrapment of Air on Immersion in Wetting Liquids

Bio-inspired Microtextures Dramatically Enhance Long-term Entrapment of Air on Immersion in Wetting Liquids

Bio-inspired Microtextures Dramatically Enhance Long-term Entrapment of Air on Immersion in Wetting Liquids.
Domingues, Eddy M.; Arunachalam, Sankara; Nauruzbayeva, Jamilya; Mishra, Himanshu (Under review)
Eddy M. Domingues, Sankara Arunachalam, Jamilya Nauruzbayeva, Himanhsu Mishra
Bio-inspiration, trapped air, doubly reentrant cavities, reentrant cavities, circular and non-circular cavities, wetting transitions, underwater hydrophobicity, liquid imbibition, capillary condensation, diffusion of gases in liquids, omniphobic surfaces
2017