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Novel Ti3C2/Bi@BiOI nanosheets with gradient oxygen vacancies for the enhancement of spatial charge separation and photocatalytic performance: The roles of reactive oxygen and iodine species

光催化 分离(统计) 材料科学 电荷(物理) 氧气 化学工程 活性氧 催化作用 化学物理 化学 有机化学 计算机科学 物理 生物化学 工程类 冶金 机器学习 量子力学
作者
Peng Gao,Zijing Zhang,Li Feng,Yongze Liu,Ziwen Du,Liqiu Zhang
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:426: 130764-130764 被引量:93
标识
DOI:10.1016/j.cej.2021.130764
摘要

In this study, we reported a series of novel Ti3C2/[email protected] photocatalysts using MXene to tailor the surface structure and photocatalytic activity of BiOI nanosheets. Notably, the Ti3C2 with surface terminal Ti sites can induce the formation of gradient oxygen vacancies (OVs) and in-situ generation of metallic Bi on BiOI nanosheets. Compared with pristine BiOI, 10% Ti3C2/[email protected] photocatalyst exhibited a higher photodegradation efficiency and the corresponding first-order reaction rates of antipyrine (ANT) and bisphenol A (BPA) photodegradation were increased by 2.4 times and 18.6 times, respectively. The high photodegradation efficiency was mainly attributed to the enhanced light absorption ability and accelerating spatial charge carriers separation. Interestingly, there existed a significant decrease of photocatalytic performance in the ANT photodegradation cycle test, which is attributed to the break of “interlayer anion exchange” chemical equilibrium. Further radicals trapping experiments confirmed that reactive oxygen species (ROSs: h+ and •O2–) were the dominant reactive species for ANT and BPA photodegradation. In addition, free iodine analysis and LC-MS/MS results suggested that reactive iodine species (RISs: •I and •I2-) played the important roles in the photocatalysis process. According to the theoretical calculation of frontier electron densities (FEDs), the contribution and reactivity of RISs were firstly proposed in the BiOI-based photocatalysis process. These new findings not only provide a potential approach to the application of BiOI-based photocatalysis but also clarify the relationship between the stability of BiOI and interlayer anion exchange.
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