Polyoxometalates-doped Bi2O3–/Bi photocatalyst for highly efficient visible-light photodegradation of tetrabromobisphenol A and removal of NO

光催化 煅烧 光降解 材料科学 可见光谱 氧化还原 兴奋剂 光化学 四溴双酚A 催化作用 纳米颗粒 肖特基势垒 纳米技术 化学工程 化学 光电子学 有机化学 复合材料 工程类 二极管 冶金 阻燃剂
作者
Yingnan Zhao,Xing Qin,Xinyu Zhao,Xin Wang,Huaqiao Tan,Huiying Sun,Gang Yan,Haiwei Li,Wingkei Ho,Shuncheng Lee
出处
期刊:Chinese Journal of Catalysis [Elsevier BV]
卷期号:43 (3): 771-781 被引量:22
标识
DOI:10.1016/s1872-2067(21)63843-3
摘要

Bismuth-based photocatalysts are a class of excellent visible-light photocatalysts; however, their redox activity is relatively poor and the efficiency of photogenerated carrier separation is low, limiting their development and application in the field of photocatalysis. To address these issues, a series of polyoxometalate PW12O403–-doped Bi2O3–x/Bi Schottky photocatalysts PW12@Bi2O3–x/Bi-n (PBOB-n, where n is the amount of NaBH4, i.e., 6, 12, 18, 24, and 48 mg) were prepared by a simple electrospinning/calcination/in-situ NaBH4 reduction method. In this composite photocatalyst, the doping of PW12 could effectively adjust the electronic structure of Bi2O3–x and improve its redox properties. As a shallow electron trap, PW12 promoted the separation of the photogenerated carriers. Furthermore, desirable Schottky junction between the metal Bi nanoparticles and PW12@Bi2O3–x further accelerated the separation of the photogenerated carriers. The synergistic effect of the aforementioned factors endowed PBOB-n with excellent photocatalytic activity. Among the samples, PBOB-18 exhibited superior photocatalytic activity. Under visible-light irradiation, 93.7% (20 mg catalyst) of 20 ppm tetrabromobisphenol A (TBBPA, 20 mL) was degraded in 60 min. Its activity was 4.4 times higher than that of Bi2O3. PBOB-18 also exhibited an ultrahigh photocatalytic performance for the removal of NO. Its removal rate (600 ppb) reached 83.3% in 30 min, making it one of the most active Bi-based photocatalysts. Furthermore, the photocatalytic mechanisms of PBOB-18 for TBBPA and NO have been proposed. This work provides a new direction and reference for the design of low-cost, efficient, stable, and versatile photocatalysts.
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