Anti-fouling properties of microstructured surfaces bio-inspired by rice leaves and butterfly wings

[Display omitted] •Anti-biofouling and anti-inorganic fouling benefit is shown with rice leaf inspired surfaces.•Optimization and mechanisms for microstructured antifouling surfaces is discussed.•Methodology for scaled up production of antifouling surfaces is presented. Material scientists often look to biology for new engineering solutions to materials science problems. For example, unique surface characteristics of rice leaves and butterfly wings combine the shark skin (antifouling) and lotus leaf (self-cleaning) effects, producing the so-called rice and butterfly wing effect. In this paper, we study antifouling properties of four microstructured surfaces inspired by rice leaves and fabricated with photolithography and hot embossing techniques. Anti-biofouling effectiveness is determined with bioassays using Escherichia coli whilst inorganic fouling with simulated dirt particles. Antifouling data are presented to understand the role of surface geometrical features resistance to fouling. Conceptual modeling provides design guidance when developing novel antifouling surfaces for applications in the medical, marine, and industrial fields.