AI Article Synopsis
- Micro- and nanoscale surface textures enhance surface functionalities by pairing them with shape memory polymers for adjustable properties.
- Various surface textures made from shape memory polyetherurethane are created, revealing that smaller textures (200 nm-gratings) deform more than larger ones (2 μm-gratings) under the same strain.
- The study highlights how the design of surface patterns can optimize their shape recovery and control wetting functions, suggesting applications in microdroplet transfer.
Article Abstract
Micro- and nanoscale surface textures, when optimally designed, present a unique approach to improve surface functionalities. Coupling surface texture with shape memory polymers may generate reversibly tuneable surface properties. A shape memory polyetherurethane is used to prepare various surface textures including 2 μm- and 200 nm-gratings, 250 nm-pillars and 200 nm-holes. The mechanical deformation via stretching and recovery of the surface texture are investigated as a function of length scales and shapes. Results show the 200 nm-grating exhibiting more deformation than 2 μm-grating. Grating imparts anisotropic and surface area-to-volume effects, causing different degree of deformation between gratings and pillars under the same applied macroscopic strain. Full distribution of stress within the film causes the holes to deform more substantially than the pillars. In the recovery study, unlike a nearly complete recovery for the gratings after 10 transformation cycles, the high contribution of surface energy impedes the recovery of holes and pillars. The surface textures are shown to perform a switchable wetting function. This study provides insights into how geometric features of shape memory surface patterns can be designed to modulate the shape programming and recovery, and how the control of reversibly deformable surface textures can be applied to transfer microdroplets.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4812242 | PMC |
| http://dx.doi.org/10.1038/srep23686 | DOI Listing |
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