Antiwetting and Antifouling Performances of Different Lubricant-Infused Slippery Surfaces

Yunyi Cao, Saikat Jana, Xiaolong Tan, Leon Bowen, Yufeng Zhu, Jack Dawson, Rui Han, John Exton, Hongzhong Liu, Glen McHale, Nicholas S. Jakubovics, Jinju Chen

Research output: Contribution to journalArticlepeer-review

27 Citations (Scopus)
114 Downloads (Pure)

Abstract

The concept of slippery lubricant-infused surfaces has shown promising potential in antifouling for controlling detrimental biofilm growth. In this study, nontoxic silicone oil was either impregnated into porous surface nanostructures, referred to as liquid-infused surfaces (LIS), or diffused into a polydimethylsiloxane (PDMS) matrix, referred to as a swollen PDMS (S-PDMS), making two kinds of slippery surfaces. The slippery lubricant layers have extremely low contact angle hysteresis, and both slippery surfaces showed superior antiwetting performances with droplets bouncing off or rolling transiently after impacting the surfaces. We further demonstrated that water droplets can remove dust from the slippery surfaces, thus showing a “cleaning effect”. Moreover, “coffee-ring” effects were inhibited on these slippery surfaces after droplet evaporation, and deposits could be easily removed. The clinically biofilm-forming species P. aeruginosa (as a model system) was used to further evaluate the antifouling potential of the slippery surfaces. The dried biofilm stains could still be easily removed from the slippery surfaces. Additionally, both slippery surfaces prevented around 90% of bacterial biofilm growth after 6 days compared to the unmodified control PDMS surfaces. This investigation also extended across another clinical pathogen, S. epidermidis, and showed similar results. The antiwetting and antifouling analysis in this study will facilitate the development of more efficient slippery platforms for controlling biofouling.
Original languageEnglish
Pages (from-to)13396-13407
Number of pages12
JournalLangmuir
Volume36
Issue number45
Early online date3 Nov 2020
DOIs
Publication statusPublished (in print/issue) - 17 Nov 2020

Bibliographical note

Y.C. acknowledges the Ph.D. studentship (Research Excellence Academy funding scheme) from Newcastle University. J.D. and J.E. acknowledge the EPSRC DTP scholarships. R.H. acknowledges the Ph.D. scholarship from Chinese Scholarship
Council and Newcastle University. J.C. acknowledges funding from the Engineering and Physical Sciences Research Council (EP/K039083/1 and EP/R025606/1) and EPSRC Partnering for GCRF (EP/R512692/1).

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