Seawater electrolysis for sustainable hydrogen fuel production emerges as an auspicious practice to decarbonize the global energy sector [1]. However, direct seawater electrolysis is severely challenged by the corrosi...Seawater electrolysis for sustainable hydrogen fuel production emerges as an auspicious practice to decarbonize the global energy sector [1]. However, direct seawater electrolysis is severely challenged by the corrosion of anodes by chloride ions, the unwanted chloride oxidation reaction (Cl OR), and the low activity and high cost of catalysts [2].展开更多
基金supported by the National Key Research and Development Program of China (2021YFA1202500)Guangdong Provincial Key Laboratory of Soil and Groundwater Pollution Control (2023B1212060002)+2 种基金Stable Support Plan Program of Shenzhen Natural Science Foundation (20231122110855002)High level of special funds (G03034K001) from SUSTechthe Australian Research Council (ARC) Discovery Project (DP220101139)。
文摘Seawater electrolysis for sustainable hydrogen fuel production emerges as an auspicious practice to decarbonize the global energy sector [1]. However, direct seawater electrolysis is severely challenged by the corrosion of anodes by chloride ions, the unwanted chloride oxidation reaction (Cl OR), and the low activity and high cost of catalysts [2].
