Sorbent-assisted water harvesting from air represents an attractive way to address water scarcity in arid climates. Hitherto, sorbents developed for this technology have exclusively been designed to perform one water harvesting cycle (WHC) per day, but the productivities attained with this approach cannot reasonably meet the rising demand for drinking water. This work shows that a microporous aluminum-based metal-organic framework, MOF-303, can perform an adsorption–desorption cycle within minutes under a mild temperature swing, which opens the way for high-productivity water harvesting through rapid, continuous WHCs. Additionally, the favorable dynamic water sorption properties of MOF-303 allow it to outperform other commercial sorbents displaying excellent steady-state characteristics under similar experimental conditions. Finally, these findings are implemented in a new water harvester capable of generating 1.3 L kgMOF–1 day–1 in an indoor arid environment (32% relative humidity, 27 °C) and 0.7 L kgMOF–1 day–1 in the Mojave Desert (in conditions as extreme as 10% RH, 27 °C), representing an improvement by 1 order of magnitude over previouslyreported devices. This study demonstrates that creating sorbents capableof rapid water sorption dynamics, rather than merely focusing on highwater capacities, is crucial to reach water production on a scalematching human consumption.
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机译:从空气中吸收吸收剂的水是解决干旱气候中缺水问题的一种有吸引力的方法。迄今为止,专门为该技术开发的吸附剂被设计成每天执行一个集水周期(WHC),但是用这种方法获得的生产率不能合理地满足饮用水的不断增长的需求。这项工作表明,微孔铝基金属有机骨架MOF-303可以在温和的温度波动下在数分钟内完成吸附-解吸循环,这为通过快速,连续的WHC进行高产水收集开辟了道路。此外,MOF-303的良好动态吸水性能使其在类似的实验条件下,表现出出色的稳态特性,其性能优于其他商用吸附剂。最后,将这些发现应用于新的集水器中,该集水器在室内干旱环境(32%相对湿度,27°C)下可产生1.3 L kgMOF –1 天 –1 )和莫哈韦沙漠中0.7 L kgMOF –1 天 –1 (在相对湿度10%,27°C的极端条件下),提高了1个数量级比以前大报告的设备。这项研究表明,制造具有吸附能力的吸附剂快速的水吸附动力学,而不仅仅是专注于高水容量,对于大规模生产水至关重要匹配人类的消费。
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