期刊
LANGMUIR
卷 -, 期 -, 页码 -出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.langmuir.2c01769
关键词
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资金
- Natural Science Foundation of Ningbo [2021J079, 2021J063]
- K. C. Wong Magna Fund at Ningbo University
- Dedicated Fund of Chinese Academy of Sciences [E0SR023002, E0ZR223010, E0YR063004]
- Director Fund of the Institute of Microelectronics
In this study, Er3+/Yb3+-codoped BiOBr microcrystals were synthesized to improve the efficiency and light harvesting ability of photocatalysts. The microcrystals showed high visible upconversion emissions and superior photocatalytic properties when compared to BiOBr:Er3+ microcrystals. Yb3+ codoping enhanced the UC emission properties and photocatalytic activities of the microcrystals, suggesting a potential strategy to regulate the photodegradation capacity of photocatalysts.
To settle the unsatisfying efficiency and insufficient light harvesting ability of photocatalysts, we report on the development of Er3+/Yb3+-codoped BiOBr (BiOBr:Er3+/xYb(3+)) microparticles that were synthesized by a rational high-temperature solid-state reaction method. The prepared microcrystals exhibit high visible upconversion (UC) emissions with maximum intensities at x = 0.01 when excited by a 980 nm laser. Remarkably, the corresponding UC emission process is attributed to a two-photon absorption route. Furthermore, the photocatalytic activities of as synthesized compounds were further evaluated through analyzing the visible-near-infrared light-triggered tetracycline degradation. Compared with BiOBr:Er3+ microparticles, BiOBr:Er3+/xYb(3+ )microparticles present superior photocatalytic properties and the optimal status is achieved when x = 0.05, in which h(+), O-center dot(2)-, and (OH)-O-center dot active species contribute to the photocatalytic mechanism. Additionally, the designed microparticles exhibit better photocatalytic abilities than previously reported photocatalysts (i.e., TiO2, SnO2) upon full-spectrum light irradiation. These results reveal that Yb3+ codoping is able to not only enhance the UC emission properties of BiOBr:Er(3+ )microparticles but also reinforce their photocatalytic activities. Our findings may put forward a facile strategy to regulate the photodegradation capacity of photcatalysts.
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