Substrate-Independent,
Fast, and Reversible Switching
between Underwater Superaerophobicity and Aerophilicity on the Femtosecond
Laser-Induced Superhydrophobic Surfaces for Selectively Repelling
or Capturing Bubbles in Water
posted on 2019-01-30, 00:00authored byJiale Yong, Subhash C. Singh, Zhibing Zhan, Feng Chen, Chunlei Guo
In this paper, the
reversible switching between underwater (super-)
aerophilicity and superaerophobicity was achieved on various femtosecond
(fs) laser-induced superhydrophobic surfaces. A range of materials
including Al, stainless steel, Cu, Ni, Si, poly(tetrafluoroethylene),
and polydimethylsiloxane were first transformed to superhydrophobic
after the formation of surface microstructures through fs laser treatment.
These surfaces showed (super-) aerophilicity when immersed in water.
In contrast, if the surface was prewetted with ethanol and then dipped
into water, the surfaces showed superaerophobicity in water. The underwater
aerophilicity of the superhydrophobic substrates could easily recover
by drying. The switching between the underwater aerophilicity and
superaerophobicity can be fast repeated many cycles and is substrate-independent
in stark contrast to common wettability-switchable surfaces based
on stimuli-responsive chemistry. Therefore, the as-prepared superhydrophobic
surfaces can capture or repel air bubbles in water by selectively
switching between underwater superaerophobicity and aerophilicity.
Finally, we demonstrated that the underwater bubbles could pass through
an underwater aerophilic porous sheet but were intercepted by an underwater
superaerophobic porous sheet. The selective passage of the underwater
bubbles was achieved by the reversible switching between the underwater
aerophilicity and superaerophobicity. We believe that this substrate-independent
and fast method of switching air wettability has important applications
in controlling air behavior in water.