A superhydrophobic
surface was realized on a glass substrate and
on the inner wall of a capillary tube, employing a combination of
ZnO nanorod arrays and stearic acid. The vertical ZnO nanorod arrays
were grown by a unique two-step solution method consisting of a seed
formation step and nanorod growth step. Stearic acid appeared to be
coated over the tips of ZnO nanorod arrays, increasing the possibility
of air trapping in the nanorod forest. A water contact angle of 156.3°
was demonstrated on the surface-modified glass, and it was attributed
mainly to the air-trapping effect. The surface-modified glass substrate
was used for contact angle measurements of detergent solutions, and
the contact angle was found to monotonically decrease with increasing
detergent concentration. Similarly, it was disclosed that the capillary
height consistently decreased as a function of detergent concentration.
These results indicate that contact angle measurement or capillary
rise measurement may be a simple and practical way to detect the residual
detergent concentration in water.