Fabrication of superhydrophobic and conductive surface based on carbon nanotubes

Abstract

A superhydrophobic conductive surface with maximum static water contact angle of 165° and sliding angle of less than 3° was fabricated by grafting the copolymers of α-methylstyrene and butylmethacrylate, named PAB, onto multiwalled carbon nanotubes (MWCNTs) using free radical polymerization. The structures and the morphologies of PAB and PAB grafted MWCNTs were examined by infrared, nuclear magnetic resonance and Raman spectrometer, transmission and scanning electron microscope. The effects of pH value and exposure time on the stability of the superhydrophobic surface were also investigated. It indicates that the obtained superhydrophobic conductive surfaces are promising materials for numerous potential applications fields, including aerospace, electronic, battery electrodes and microfluidic areas.