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Multiscale Synergetic Bandgap/Structure Engineering in Semiconductor Nanofibrous Aerogels for Enhanced Solar Evaporation

Hualei Liu, Fan Wu, Xiaoyan Liu, Jianyong Yu, Yi‐Tao Liu, Bin Ding

2023Nano Letters56 citationsDOI

Abstract

Solar-driven interface evaporation has been identified as a sustainable seawater desalination and water purification technology. Nonetheless, the evaporation performance is still restricted by salt deposition and heat loss owing to weak solar spectrum absorption, tortuous channels, and limited plane area of conventional photothermal material. Herein, the semiconductor nanofibrous aerogels with a narrow bandgap, vertically aligned channels, and a conical architecture are constructed by the multiscale synergetic engineering strategy, encompassing bandgap engineering at the atomic scale and structure engineering at the nano–micro scale. As a proof-of-concept demonstration, a Co-doped MoS 2 nanofibrous aerogel is synthesized, which exhibits the entire solar absorption, superhydrophilic, and excellent thermal insulation, achieving a net evaporation rate of 1.62 kg m –2 h –1 under 1 sun irradiation, as well as a synergistically efficient dye ion adsorption function. This work opens up new possibilities for the development of solar evaporators for practical applications in clean water production.

Topics & Concepts

Materials scienceAerogelSemiconductorBand gapEvaporationNanotechnologyAbsorption (acoustics)DesalinationNanoporousSuperhydrophilicityOptoelectronicsChemical engineeringComposite materialChemistryEngineeringThermodynamicsWettingBiochemistryPhysicsMembraneSolar-Powered Water Purification MethodsSurface Modification and SuperhydrophobicityAdvanced Sensor and Energy Harvesting Materials
Multiscale Synergetic Bandgap/Structure Engineering in Semiconductor Nanofibrous Aerogels for Enhanced Solar Evaporation | Litcius