环境科学
生产(经济)
肥料
氮气
农作物产量
作物
农学
农业工程
农业
生物
化学
生态学
工程类
宏观经济学
有机化学
经济
作者
Zhenwen Zhang,Tong Li,Yongjiu Yuan,Zhi Zhang,Chen Ling,Xiaoxue Yao,H Wang,W.K. Lo,Q. N. Xu,Jun Liu,Yun Hau Ng,Teng Long,Steven Wang
标识
DOI:10.1038/s41467-025-60340-0
摘要
Crops require water and fertilizers to grow. However, the shortage of freshwater limits the regions where plants, especially crops, can be grown, and the misuse of chemical fertilizers imposes a burden on the environment and human health. This study develops a self-sufficient system that can passively capture water and produce plant nutrients from the air through the integration of a fog-to-water converter and a spark-type droplet-based electric generator. The proof-of-concept system, based on large-scale 3D wedged spines, achieves a fog-to-water conversion efficiency of 35% and yields nitrogen fertilizer at a rate of 2.38 mg per hour per liter of water droplets. Scaling this system could boost global wheat production by approximately 1 megaton annually, even if operated for a short period each day. This approach offers a self-reliant and potentially eco-friendly solution for agriculture.
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