posted on 2014-06-11, 00:00authored bySara A. Turner, Jing Zhou, Sergei S. Sheiko, Valerie Sheares Ashby
Reversibly switching topography on
micrometer length scales greatly expands the functionality of stimuli-responsive
substrates. Here we report the first usage of reversible shape memory
for the actuation of two-way transitions between microscopically patterned
substrates, resulting in corresponding modulations of the wetting
properties. Reversible switching of the surface topography is achieved
through partial melting and recrystallization of a semi-crystalline
polyester embossed with microscopic features. This behavior is monitored
with atomic force microscopy (AFM) and contact angle measurements.
We demonstrate that the magnitude of the contact angle variations
depends on the embossment pattern.