Sculpting Tiered Micro‐Nanogradient Structure by Anisotropic Stepped Anodization for Mediating Water Distribution and Transportation

Abstract: Tiered micro‐nanogradient structures with custom‐tailored profiles and dimensions can be fabricated by the anisotropic electrochemical anodization of aluminum, where the micro and nanostructures are simultaneously formed. The microgradient structures can be sculpted by the chronological and spatial order of polymer masking followed by step anodization; the nanostructures can be controlled by electrochemical conditions in step anodization. Water spatial distribution and directional transportation abilities of t… Show more

“…The primary method of active water collection involves fog collection, known for its effectiveness, simplicity, and cost-efficiency, making it particularly suitable for addressing water scarcity in semiarid and water-deficient regions . In recent years, researchers have focused on improving the efficiency of fog collection to promote better practical applications. − Because of the efficiency of fog collection depending on the design and construction of the surface engineering, many studies have reported innovatively constructing superhydrophilic–superhydrophobic hybrid surfaces (SSHSs) on the metal surface to improve fog collection efficiency inspired by the desert beetle. For instance, Liu et al constructed a hydrophilic–superhydrophobic hybrid surface on stainless steel using chemical etching and mechanical hole drilling to enhance fog collection efficiency .…”

Improved Fog Collection on a Hybrid Surface with Acylated Cellulose Coating

“…The primary method of active water collection involves fog collection, known for its effectiveness, simplicity, and cost-efficiency, making it particularly suitable for addressing water scarcity in semiarid and water-deficient regions . In recent years, researchers have focused on improving the efficiency of fog collection to promote better practical applications. − Because of the efficiency of fog collection depending on the design and construction of the surface engineering, many studies have reported innovatively constructing superhydrophilic–superhydrophobic hybrid surfaces (SSHSs) on the metal surface to improve fog collection efficiency inspired by the desert beetle. For instance, Liu et al constructed a hydrophilic–superhydrophobic hybrid surface on stainless steel using chemical etching and mechanical hole drilling to enhance fog collection efficiency .…”

Improved Fog Collection on a Hybrid Surface with Acylated Cellulose Coating

Fabrication of arrayed V-shape micro-nano hierarchical structures for dew collection

Fabrication of Arrayed V-Shape Micro-Nano Hierarchical Structures for Dew Collection