Bacterial Retention on Superhydrophobic Titanium Surfaces Fabricated by Femtosecond Laser Ablation

Two-tier micro- and nanoscale quasi-periodic self-organized structures, mimicking the surface of a lotus Nelumbo nucifera leaf, were fabricated on titanium surfaces using femtosecond laser ablation. The first tier consisted of large grainlike convex features between 10 and 20 mu m in size. The second tier existed on the surface of these grains, where 200 nm (or less) wide irregular undulations were present The introduction of the biomimetic surface patterns significantly transformed the surface wettability of the titanium surface. The original surface possessed a water contact angle of theta(W) 73 +/- 3 degrees, whereas the laser treated titanium surface became superhydrophobic, With a water contact angle of theta(W) 166 +/- 4 degrees. Investigations of the interaction of S. aureus and P. aeruginosa with these, superhydrophobic surfaces at the surface-liquid interface revealed, a highly selective retention pattern for two pathogenic bacteria. Whole S. aureus cells were able to successfully colonize the superhydrophobic titanium surfaces, no P. aeruginosa cells were able to attach to the surface (i.e., any attached bacterial cells were below the estimated lower detection limit).