A bioinspired fluidic system with cracks and folds was introduced to emulate the structures and functions of desert lizards' integuments, which show marked ability of water management. Because there was a structural analogy between scales and interscalar channels of lizard's skin and cracks and folds of a bilayer elastic material, we can mimic lizard's skin by controlling the stress distribution on patterned elastomers. Our system showed not only capillary-driven water retention within confined fluidic network, but also stretching-driven biaxial water transport. Observed features of our system may enhance understanding of water management in relation to morphogenetic aspects of lizards.
Keywords: bioinspired system; cracks; fold; scales; semitubular structure; shape-tunable fluidic networks.