Surface structure and wettability tuning of porous silicon films by capillary-driven surface texturing under different current densities of electrochemical etching

Silicon-based biomimetic surfaces with special wettabilities are difficult to be fabricated without lithographic techniques. In this report, superhydrophobic surfaces of porous silicon (PSi) with adjustable papillary microstructures have been prepared simply by electrochemical etching of n-type silicon, capillary driven surface texturing (CDST) of PSi films and surface modification. According to the results of FE-SEM and Drop Shape Analyzer, surface morphologies (from 2D pore structures to 3D papillary microstructures) and corresponding wettabilities (Contact angles, CAs: 134.8 degrees-158.9 degrees; Sliding angles, SAs: 180 degrees-1 degrees ) of PSi films can be adjusted efficiently by current density (< 20 mA cm (2)). The sizes and distribution of inverted-pyramid structures (IPSs) at the interfaces and symbiotic macropores in their centers are essential for such an adjustment. Considering the excellent biocompatibility of PSi, Such surfaces will be beneficial to the silicon-based biosensors, microarrays and microfluidics. (c) 2018 Published by Elsevier B. V.