posted on 2019-10-23, 08:29authored byJinyoung Park, Seeun Woo, Seongmin Kim, Moonsu Kim, Woonbong Hwang
The adherence of underwater air bubbles
to surfaces is a serious
cause of malfunction in applications such as microfluidics, transport,
and space devices. However, realizing spontaneous and additional unpowered
transport of underwater air bubbles inside tubes remains challenging.
Although superhydrophilic polydimethylsiloxane (PDMS) tubes are attracting
attention as air bubble repellents, superhydrophilic PDMS, which is
fabricated via oxygen plasma treatment, has a disadvantage in that
it is weak against aging. Here, we present a tube with the ability
to self-remove air bubbles, which overcomes the drawback of rapid
aging. PDMS containing Silwet L-77 with a hierarchical nano–microstructure
exhibiting subaqueous aerophobicity was fabricated. We conducted adherence
and saturation experiments of air bubbles using the fabricated PDMS
tube with Silwet L-77 to investigate the mechanism of bubbles adhering
to and separating from the fabricated tube surface. The developed
PDMS with Silwet L-77 exhibits a strong self-removal effect with an
air bubble removal of 97.7%. The adherence and saturation experiments
suggest that the transparent superhydrophilic–underwater aerophobic
PDMS is a potentially exceptional tool for spontaneously separating
air bubbles attached to tube surfaces.