Litcius/Paper detail

Novel Sponge-Based Carbonaceous Hydrogel for a Highly Efficient Interfacial Photothermal-Driven Atmospheric Water Generator

Xiangting Hou, Fangyuan Dong, Fan Hao, Hui Wang, Wenchao Yu, Zhaoyong Bian

2024ACS Applied Materials & Interfaces11 citationsDOI

Abstract

A high-performance atmospheric water generator based on continuous adsorption–desorption of liquid hygroscopic agents was constructed by applying interfacial photothermal evaporation technology to the field of atmospheric water harvesting. A three-dimensional carbon-containing sponge hydrogel photothermal conversion material with a porous channel structure was designed, which was prepared from melamine foam (MF) and carbon black (CB) cross-linked by sodium alginate (SA). The results showed that the evaporation rate of CB/SA@MF in pure water was 1.90 kg·m –2 ·h –1, and the photothermal conversion efficiency could reach 85.0%. The multistage pore structures and water transport channels in the A4 configuration device provided an excellent structural basis for material salt resistance and liquid hygroscopic agent regeneration. Using sponge-based CB/SA@MF hydrogel photothermal composites as the evaporation interface and liquid hygroscopic salts as the air–water trapping agent, an interfacial photothermal-driven atmospheric water generator successfully absorbed water at night and produced water during the day. Its water production could reach 2.84 kg·m –2 ·d –1 . The cost of the atmospheric water generator was only $12, and the water quality obtained after 5 cycle tests met WHO/GB 5749-2022. This research was designed to collect fresh water from the air, bringing convenience to inland arid regions as well as remote and scattered areas with limited power resources.

Topics & Concepts

Materials sciencePhotothermal therapyEvaporationChemical engineeringAdsorptionWater transportDesorptionPhotothermal effectComposite materialNanotechnologyWater flowEnvironmental engineeringEnvironmental scienceChemistryMeteorologyOrganic chemistryEngineeringPhysicsSolar-Powered Water Purification MethodsSurface Modification and SuperhydrophobicitySolar Thermal and Photovoltaic Systems