posted on 2025-01-11, 02:49authored byYuan Zhong, Yuanhao Liu, Zehua Liu, Xuecheng Guo, Yawen Jiang, Chao Zhang, Lin Zu, Yuan Zhao, Li−Li Ling, Ran Long, Yujie Xiong
Maximizing the utilization of in situ extraterrestrial
resources, including solar-powered water electrolysis using lunar
soil as a catalyst, is a promising strategy for achieving a sustainable
fuel and oxygen supply for lunar exploration. However, these lunar
soil-based silicate minerals suffer from unsatisfactory intrinsic
activity for water splitting due to poor electrical conductivity and
the lack of catalytic sites. Here we report the use of a simple Joule-heating
method to sinter the minerals into a disordered matrix at ∼2000
°C. The as-prepared amorphous minerals can significantly reduce
the overpotential and exhibit good stability (>150 h) due to enhanced
charge transport kinetics and intrinsic activity. We further demonstrate
the solar-driven water electrolysis stack using sintered lunar soil
simulants as catalysts, showing the practicality of such a system.
This work provides insights into in situ resource
utilization of lunar soils by engineering crystalline structures and
electronic configurations by using an ultrafast Joule-heating method.