材料科学
制氢
多孔性
碳纤维
氢
化学工程
生产(经济)
多孔介质
纳米技术
分解水
催化作用
复合材料
有机化学
光催化
经济
化学
宏观经济学
工程类
复合数
作者
Bo Fu,Jifang Zhang,Neil Robinson,Zheng Zhang,Zhengju Zhu,Mengyang Dong,Xinyuan Zhang,Jian Kang,Paul J. Michalski,Zeyang Zhao,Jiapeng Ji,Yiming Xu,Kaidi Zhang,Xinyu Wang,Shan Chen,Haolan Xu,Porun Liu,Huajie Yin,Huijun Zhao
标识
DOI:10.1002/adma.202511336
摘要
Green hydrogen production by proton exchange membrane water electrolysis (PEMWE) powered by clean energy is a promising and environmentally friendly technology. However, it relies on a high-purity water source, which is limited in regions facing water scarcity. Here, a coupled self-sustaining solar-enabled system is reported that couples atmospheric water harvesting with PEM water electrolysis (AWH-PEMWE), offering a novel pathway for clean water generation and green hydrogen production. The atmospheric water harvester (AWH) component utilizes N and O co-doped hydrophilic ordered porous carbon, engineered with an interconnected hierarchical porous structure with prosperous channels for efficient mass transport. It enables effective interfacial solar evaporation for water release, achieving a record-high water harvesting capacity of 0.49 L kg-1 h-1 at 40% relative humidity (RH). During outdoor tests, the AWH-PEMWE system reaches a peak green hydrogen production rate of 204 mL h-1 at midday using only atmospheric water as feedstock. Remarkably, the system remains operational under ultra-low humidity conditions down to 20% RH, addressing the challenge of water availability in arid environments. Importantly, the system operates without the need for carrier gases or external energy input accessories, enabling a fully solar-driven process with zero carbon emission throughout the hydrogen production cycle.
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