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Rapid solar-driven atmospheric water-harvesting with MAF-4-derived nitrogen-doped nanoporous carbon.

Jin-Hua FengFeng LuZhen ChenMiao-Miao JiaYi-Le ChenWei-Hai LinQing-Yun WuYi LiMing XueXiao-Ming Chen
Published in: Chemical science (2024)
Sorption-based atmospheric water-harvesting (AWH) could help to solve global freshwater scarcity. The search for adsorbents with high water-uptake capacity at low relative humidity, rapid adsorption-desorption kinetics and high thermal conductivity is a critical challenge in AWH. Herein, we report a MAF-4 (aka ZIF-8)-derived nanoporous carbon (NPC MAF-4 -800) with multiple N-doped sites, considerable micropore characteristics and inherent photothermal properties, for efficient water production in a relatively arid climate. NPC MAF-4 -800 exhibited optimal water-sorption performance of 306 mg g -1 at 40% relative humidity (RH). An excellent sunlight-absorption rate was realized (97%) attributed to its high degree of graphitization. A proof-of-concept device was designed and investigated for the practical harvesting of water from the atmosphere using natural sunlight. NPC MAF-4 -800 achieved an unprecedentedly high water production rate of 380 mg g -1 h -1 at 40% RH, and could produce 1.77 L kg -1 freshwater during daylight hours in an outdoor low-humidity climate of ∼25 °C and 40% RH. These findings may shed light on the potential of MOF-derived porous carbons in the AWH field, and inspire the future development of solar-driven water-generation systems.
Keyphrases
  • particulate matter
  • metal organic framework
  • air pollution
  • drug delivery
  • drug release