Wetting of Superhydrophobic Polylactic Acid Micropillared Patterns

Superhydrophobic (SH) polylactic acid (PLA) surfaces were previously produced by various methods and used especially in biomedical applications and oil/water separation processes after 2008. However, the wettability of SH-PLA patterns containing micropillars has not been investigated before. In this study, PLA patterns having regular microstructured pillars with 12 different pillar diameters and pillar-to-pillar distances were prepared by hot pressing pre-flattened PLA sheets onto preformed polydimethylsiloxane (PDMS) soft molds having micro-sized pits. PDMS templates were previously prepared by photolithography using SU-8 molds. Apparent, advancing, and receding water contact angle measurements were carried out on the PLA patterns containing micropillars, and the morphology of the patterns was examined by optical and SEM microscopy. The largest contact angle obtained without the surface modification of the pure PLA pattern was 139 degrees. Then, PLA micropatterns were hydrophobized using three types of silanes via chemical vapor deposition method, and SH-PLA patterns were obtained having theta s of up to 167 degrees. It was found that the highest theta values could be obtained when PLA pattern samples were coated with a silane containing a fluorine atom in its chemical structure. Washing and service life stability tests were also performed on the coated pattern samples and all of the silane coatings on the PLA patterns were found to be resistant over a 6 month period.

Automated summary

In this study, superhydrophobic polylactic acid (PLA) surfaces with microstructured pillars were prepared using hot pressing and chemical vapor deposition methods. The wettability and morphology of the PLA patterns were investigated. The results showed that silane coatings containing a fluorine atom could significantly increase the water contact angle of the PLA surfaces, and the coated patterns exhibited excellent resistance and stability.