Underwater Bionic Self‐Healing Superhydrophobic Coating with the Synergetic Effect Of Hydrogen Bonds and Self‐Formed Bubbles

Abstract The self‐healing ability of superhydrophobic surfaces in air has attracted tremendous additions in recent years. Once the superhydrophobic surface is damaged underwater, water seeps into gaps among micro/nano structures. The air film diffuses into water and eventually disappears during immersion without actively replenishing the gas, which results in the impossible of self‐healing. Here, an underwater self‐healing superhydrophobic coating with the synergetic effect of hydrogen bonds and self‐formed bubbles via the spraying method is fabricated. The movement of hydrogen bonds of the prepared polyurethane enables microstructures to reconstruct at room temperature and self‐formed bubbles of effervescent materials underwater actively replenish gas before microstructures completely self‐healing, achieving the self‐healing property of the superhydrophobic coating. Moreover, the hydrophilic effervescent material is sprayed along with unmodified micron‐scaled particles because modified nano‐scale particles are key factors for the realization of superhydrophobic coating. An underwater stable superhydrophobic surface with pressure resistance (4.9 kPa) is demonstrated. This superhydrophobic coating also shows excellent drag reduction, anti‐icing, and anti‐corrosion properties. This facile and scalable method offers a new route that an underwater self‐healing superhydrophobic coating executes the gas film recovery.