Rapid Cycling and Exceptional Yield in a Metal-Organic Framework Water Harvester

Hanikel, Nikita; Prévot, Mathieu S.; Fathieh, Farhad; Kapustin, Eugene A.; Lyu, Hao; Wang, Haoze; Diercks, Nicolas J.; Glover, T. Grant; Yaghi, Omar M.

doi:10.1021/acscentsci.9b00745

articleACS Central ScienceAug 27, 2019DIAMOND OA

Rapid Cycling and Exceptional Yield in a Metal-Organic Framework Water Harvester

NHNikita Hanikel MSMathieu S. Prévot FFFarhad Fathieh EAEugene A. Kapustin HLHao Lyu

Lawrence Berkeley National Laboratory · Kavli Energy NanoScience Institute · +3 more institutions

PubMed

Indexed incrossrefdoajpubmed

Abstract

In the Mojave Desert (in conditions as extreme as 10% RH, 27 °C), representing an improvement by 1 order of magnitude over previously reported devices. This study demonstrates that creating sorbents capable of rapid water sorption dynamics, rather than merely focusing on high water capacities, is crucial to reach water production on a scale matching human consumption.

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Topics & keywords

Topics

Keywords

Rainwater harvesting
Environmental science
Sorption
Water scarcity
Sorbent
Arid
Humidity
Adsorption

UN Sustainable Development Goals

Clean water and sanitation

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