Underwater Fast Bubble Generating on Pitaya Thorn and Enhanced Biomimetic Gas Collection

Abstract: Underwater bubble is vital to various applications and many technologies are applied for realizing efficient interfacial bubble generating. Here, the unique underwater bubble generating by the thorn of pitaya is reported. Extensive bubbles are generated underwater within few seconds on the thorn surface. Microbumps and dual‐scale ribs grow on the thorn surface, constructing the unique dual‐scale groove configuration along the thorn surface. Microbumps equip groove with width gradient. The mechanism of how geom… Show more

“…A representative example is an aquatic spider ,, that uses fibered superhydrophobic cuticles to capture bubbles and sustain a stable air layer, which inspires many underwater applications, such as selective electrocatalysts . By taking advantage of special geometry − such as conical or wedged-shaped structures or applying external driving forces, − bubbles can be directionally transported and collected in the preferred location to replenish the air layer underwater. Active bubble generation by chemical reactions can also be harnessed to sustain a stable air layer within structures underwater. , …”

Liquid-Repellent Surfaces

“…A representative example is an aquatic spider ,, that uses fibered superhydrophobic cuticles to capture bubbles and sustain a stable air layer, which inspires many underwater applications, such as selective electrocatalysts . By taking advantage of special geometry − such as conical or wedged-shaped structures or applying external driving forces, − bubbles can be directionally transported and collected in the preferred location to replenish the air layer underwater. Active bubble generation by chemical reactions can also be harnessed to sustain a stable air layer within structures underwater. , …”

Liquid-Repellent Surfaces

Selective-layer polysulfone membranes based on unfunctionalized and functionalized MoS2/polyamide nanocomposite for water desalination

Bubble manipulation mediated by external stimuli: From bioinspired design to potential applications