海水
材料科学
兴奋剂
化学工程
聚合物
壳体(结构)
异质结
碳纤维
分解水
芯(光纤)
无机化学
配位聚合物
催化作用
化学
复合材料
复合数
有机化学
光催化
光电子学
海洋学
工程类
地质学
作者
Xiaoyin Zhang,Yan Liu,Zihan Zeng,Yan Zou,Wanzhen Wang,Jing Zhang,Jing Wang,Xiangfeng Kong,Xiangmin Meng
出处
期刊:Polymers
[Multidisciplinary Digital Publishing Institute]
日期:2025-06-19
卷期号:17 (12): 1701-1701
被引量:4
标识
DOI:10.3390/polym17121701
摘要
Utilizing renewable energy for green hydrogen production via electrolyzed seawater is a promising technology for the future. However, undesired chlorine evolution and the corrosive nature of seawater are crucial challenges for direct seawater splitting technology. In this work, heterojunctions of CoS2/FeS2 encapsulated in N-doped carbon nanocubes (denoted as CoS2/FeS2@NC) were designed by proposing the synchronous pyrolysis and vulcanization of polydopamine-coated coordination polymers. Such a synthetic strategy was demonstrated to be effective in increasing the favorable exposure of active sites, moderately regulating electronic structure, and remarkably facilitating charge transfer due to the controllable generation of unique core–shell structures with suitable carbon shells, leading to the excellent bifunctional electrocatalytic performance and enhanced stability of electrocatalysts. As a result, CoS2/FeS2@NC can be revealed as a superior water splitting catalyst, possessing a small voltage of 1.75 V and requiring 100.0 mA cm−2 in 1 M KOH alkaline solution and 1.80 V for alkaline seawater media, with satisfactory long-term stability. This work presents fresh strategies for designing core–shell heterostructures and developing green technology for hydrogen production.
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