材料科学
吸附剂
水蒸气
解吸
吸附
石墨烯
化学工程
工艺工程
纳米技术
吸附
有机化学
工程类
化学
作者
Samar N. Abd Elwadood,Andreia S.F. Farinha,Yasser Al Wahedi,Ali Al Alili,Geert‐Jan Witkamp,Ludovic F. Dumée,Georgios N. Karanikolos
标识
DOI:10.1021/acsami.4c02451
摘要
Water is readily available nearly anywhere as vapor. Thus, atmospheric water harvesting (AWH) technologies are seen as a promising solution to support sustainable water production. This work reports a novel semi-interpenetrating network, which integrates poly(pyrrole) doped with a hygroscopic salt and 2D graphene-based nanosheets optimally assembled within an alginate matrix, capable of harvesting water from the atmosphere with a record intake of up to 7.15 gw/gs. Owing to the incorporated graphene nanosheets, natural sunlight was solely used to enable desorption, achieving an increase of the temperature of the developed network of up to 71 °C within 20 min, resulting in a water yield of 3.36 L/kgS in each cycle with quality well within the World Health Organization standard ranges. Notably, after 30 cycles of sorption and desorption, the composite hydrogel displayed unchanged water uptake and stability. This study demonstrates that atmospheric water vapor as a complementary source of water can be harvested sustainably and effectively at a minimal cost and without external energy input.
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