Journal
ADVANCED MATERIALS INTERFACES
Volume 8, Issue 2, Pages -Publisher
WILEY
DOI: 10.1002/admi.202000359
Keywords
antifouling; liquid-infused coatings; longevity; porosity; silicones
Funding
- Office of Naval Research (ONR), U.S. Department of Defense [N00014-17-1-2913, N00014-12-1-0641]
- National Science Foundation [ECS-0335765]
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Liquid-infused silicones are a promising solution for surface adhesion problems, but often lack the necessary mechanical durability and longevity for industrial applications. Self-stratifying porous silicones (SPS) use emulsion templating to control bulk porosity and pore size distribution, allowing for increased oil infusion and retention without compromising surface elasticity. This makes liquid-infused SPS a potential nontoxic fouling release coating for marine applications.
Liquid-infused silicones are a promising solution for common surface adhesion problems, such as ice accumulation and biofilm formation, yet they generally lack the tunability, mechanical durability and/or longevity essential for industrial applications. Self-stratifying porous silicones (SPS) infused with compatible silicone oil are developed as a passive strategy to address these shortcomings. Through emulsion templating, porosity is formed in the bulk polymer, providing increased free volume for oil infusion, while a non-porous skin layer is formed at the surface. The bulk porosity and pore size distribution of SPS are independently controlled by varying water and surfactant concentration respectively, leading to a higher volume of oil infusion and improved oil retention relative to an unmodified silicone. Despite a higher oil loading and bulk porosity, the skin layer provides liquid-infused SPS with a comparable surface elasticity to liquid-infused silicones. The potential of liquid-infused SPS as a nontoxic fouling release coating for marine applications is demonstrated using laboratory assays against a variety of soft and hard fouling organisms.
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