光催化
尼亚尔
原位
异质结
材料科学
催化作用
氢
化学工程
光化学
化学
纳米技术
冶金
光电子学
有机化学
金属间化合物
工程类
合金
作者
Youlin Wu,Pengfei Zhu,Youji Li,Lijun Zhang,Zhiliang Jin
标识
DOI:10.1021/acsaem.2c00689
摘要
Owing to the creation of a large number of surface active sites, surface modification is an efficient strategy for improving the catalytic performances of photocatalysts. Herein, zero-dimensional (0D) p-type NiS species were developed in situ on the large surface of NiAl-LDH by controlled vulcanization. Importantly, the development of the 0D p-type NiS species not only enriched the active sites but also triggered the in situ formation of a NiS/NiAl-LDH p–n heterojunction due to NiAl-LDH, which was utterly underdeveloped in the vulcanization modification procedure. This undoubtedly accelerated the faster separation and migration of charge carriers and yielded improved photocatalytic hydrogen evolution. The optimum hydrogen production rate of the NiS/NiAl-LDH photocatalyst could reach 3408 μmol·g–1·h–1 using a 5 W LED simulation visible light, which was 52-fold that of NiAl-LDH. The design and construction of the in situ p–n heterojunction may provide a perspective for the formation of p–n heterojunction photocatalysts with a closer contact interface and highly enhanced photocatalytic activity.
科研通智能强力驱动
Strongly Powered by AbleSci AI