光催化
纳米棒
材料科学
光化学
硫黄
微晶
氮气
带隙
氨
热液循环
氨生产
化学工程
碳纤维
固氮
可见光谱
纳米技术
化学
兴奋剂
无机化学
质子化
固碳
催化作用
水热合成
作者
Hao Wang,Yuxuan Pan,Huishan Liang,Mingyi Dai,Hao Xiang,Yinbao Tong,Yike Sui,Lei Li,Changcun Han
标识
DOI:10.1021/acs.cgd.5c01546
摘要
The development of efficient photocatalytic materials is the key to promoting the advancement and application of photocatalytic technology. Bi2S3, a relatively narrow bandgap semiconductor, can absorb visible light and even near-infrared light. However, the fast recombination rate of photogenerated electron–hole pairs, limited surface active sites, and susceptibility to photocorrosion of pure Bi2S3 severely restrict its photocatalytic efficiency. In this paper, carbon-doped sulfur-rich defective hollow Bi2S3 nanorods were prepared in one step using Bi-MOF as the precursor. The microcrystalline structure and defect structure were regulated by adjusting the hydrothermal reaction time. The ammonia production rate of hollow Bi2S3-2 under full sunlight was approximately 147.78 μmol·h–1·g–1. The superior photocatalytic activity of hollow Bi2S3-2 is mainly attributed to its sulfur defects, which can provide abundant active sites to activate nitrogen molecules. It reveals that the photoexcited electrons generate ammonia through two protonation pathways and weaken the N≡N bond in the photocatalytic nitrogen fixation path. This work provides new insights into photocatalytic nitrogen fixation and achieves efficient N2 photoreduction by synthesizing photocatalysts from MOF derivatives.
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