Long-term stability of aerophilic metallic surfaces underwater.
Alexander B TeslerStefan KolleLucia H PradoIngo ThievessenDavid BöhringerMatilda BackholmBhuvaneshwari KarunakaranHeikki A NurmiMika LatikkaLena FischerShane StafslienZoran M CenevJaakko V I TimonenMark P BrunsAnca MazareUlrich LohbauerSannakaisa VirtanenBen FabryPatrik SchmukiRobin H A RasJoanna AizenbergWolfgang H GoldmannPublished in: Nature materials (2023)
Aerophilic surfaces immersed underwater trap films of air known as plastrons. Plastrons have typically been considered impractical for underwater engineering applications due to their metastable performance. Here, we describe aerophilic titanium alloy (Ti) surfaces with extended plastron lifetimes that are conserved for months underwater. Long-term stability is achieved by the formation of highly rough hierarchically structured surfaces via electrochemical anodization combined with a low-surface-energy coating produced by a fluorinated surfactant. Aerophilic Ti surfaces drastically reduce blood adhesion and, when submerged in water, prevent adhesion of bacteria and marine organisms such as barnacles and mussels. Overall, we demonstrate a general strategy to achieve the long-term stability of plastrons on aerophilic surfaces for previously unattainable underwater applications.