Hierarchical Engineering of Sorption‐Based Atmospheric Water Harvesters

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DOI:10.1002/adma.202209134
Corpus ID: 258959749

@article{Song2023HierarchicalEO, title={Hierarchical Engineering of Sorption‐Based Atmospheric Water Harvesters}, author={Yan Song and Mengyue Zeng and Xueyang Wang and Peiru Shi and Minfei Fei and Jia Zhu}, journal={Advanced Materials}, year={2023}, volume={36}, url={https://api.semanticscholar.org/CorpusID:258959749}}

Yan Song, Mengyue Zeng, Jia Zhu
Published in Advances in Materials 28 May 2023
Environmental Science, Engineering

Harvesting water from air in sorption‐based devices is a promising solution to decentralized water production, aiming for providing potable water anywhere, anytime. This technology involves a series of coupled processes occurring at distinct length scales, ranging from nanometer to meter and even larger, including water sorption/desorption at the nanoscale, condensation at the mesoscale, device development at the macroscale and water scarcity assessment at the global scale. Comprehensive…

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