Litcius/Paper detail

Improved Fog Collection on a Hybrid Surface with Acylated Cellulose Coating

Danyan Zhan, Xionggang Chen, Yu Xia, Shaojun He, Jinxia Huang, Zhiguang Guo

2024ACS Applied Materials & Interfaces12 citationsDOI

Abstract

Fog collection serves as an efficient method to alleviate water scarcity in foggy, water-stressed regions. Recent research has focused on constructing a hybrid surface to enhance fog collection efficiency, with one approach being the prevention of liquid film formation at hydrophilic sites. Inspired by the desert beetle, a coating (10-MCC) made by partially acylating microcrystalline cellulose (MCC) exhibits hydrophilic sites alongside a hydrophobic skeleton enabling rapid droplet capture despite its overall hydrophobicity. The captured droplets quickly coalesce into a large droplet driven by the wetting gradient created by the hydrophobic backbone and hydrophilic sites. To achieve greater fog collection efficiency, a hydrophobic–superhydrophobic hybrid surface is formed by combining a coating of 10-MCC with a superhydrophobic surface. The construction of superhydrophobic surfaces typically involves creating a rough surface with a distinctive structure produced by the anodization technique and modifying it with stearic acid. The superhydrophobic surface exhibits excellent corrosion resistance and mechanical stability. Moreover, the hybrid surface shows high efficiency in fog collection, with a tested maximum efficiency of approximately 1.5092 g/cm 2 /h, 1.77 times that of the original Al sheets. The results demonstrate a remarkable enhancement in fog collection capacity. Furthermore, this work serves as an inspiration for the low-cost and innovative design of engineered surfaces for efficient fog collection.

Topics & Concepts

Materials scienceCelluloseCoatingChemical engineeringNanotechnologySurface modificationEngineeringSurface Modification and SuperhydrophobicityAdvanced Sensor and Energy Harvesting MaterialsAnodic Oxide Films and Nanostructures