Fabrication of stable superhydrophilic surfaces on titanium substrates

We report a method of producing superhydrophilic surfaces on titanium substrates via sandblasting and dip-coating with colloidal silica nanoparticles. The surface exhibits a high level of hydrophilic stability, as it stays superhydrophilic for an excess of 40days and through multiple wetting-dewetting cycles. The combination of microscale roughness from the sandblasting and nanoscale roughness from the silica particles results in a micro-nano binary structure, which greatly enhances the hydrophilicity of the titanium samples. Due to the simplicity and ease of implementation of this method, such a surface is suitable for potential use in a variety of applications, such as prosthetic dentistry and other biomedical fields.