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首页> 外文期刊>Journal of Hazardous Materials >A novel and high-performance double Z-scheme photocatalyst ZnO-SnO_2-Zn_2SnO_4 for effective removal of the biological toxicity of antibiotics
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A novel and high-performance double Z-scheme photocatalyst ZnO-SnO_2-Zn_2SnO_4 for effective removal of the biological toxicity of antibiotics

机译:一种新颖且高性能的双Z方案光催化剂ZnO-SnO_2-Zn_2SnO_4,用于有效去除抗生素的生物毒性

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摘要

Visible light-responsive tetradecahedral ZnO-SnO2-Zn2SnO4 photocatalysts possessing double Z-scheme mechanism were prepared via a hydrothermal pathway and subsequent annealing treatment. Due to its enhanced optical absorption ability and effective charge separation, the sample with a Zn/Sn atom ratio of 3:2 (Z32) exhibited superior degradation of the antibiotics ciprofloxacin and sulfamonomethoxine under visible light irradiation and also degraded bisphenol A. Furthermore, five-cycle experiments confirmed that Z32 also exhibited satisfactory photostability. The trapping experiment and electron spin resonance data demonstrated that both (OH)-O-center dot and O-2(center dot-) play important roles in the photocatalytic system, where electron transfer coincides with the double Z-scheme mechanism. Photo-generated electrons in the conduction band (CB) of ZnO can transfer to the valence band (VB) of Zn2SnO4, while electrons in the CB of SnO2 transfer to the VB of ZnO, as a result of the intimatecontact, chemically-bound interface. Therefore, the reduction and oxidation reactions occur at higher reduction and oxidation potentials, producing reactions that can successfully eliminate the biotoxicity of antibiotics to Escherichia coli DH5a after photocatalytic degradation by Z32.
机译:可见光响应四展赤裸ZnO-SnO2-Zn2SNO4光催化剂,具有双Z-方案机理,通过水热途径和随后的退火处理制备。由于其增强的光学吸收能力和有效电荷分离,具有3:2(Z32)的Zn / Sn原子比的样品在可见光照射下表现出优异的抗生素环氟氟苯甲酸和磺胺酰胺的降解,并且还降解了双酚A.此外,五个-Cycle实验证实,Z32也表现出令人满意的光稳定性。诱捕实验和电子自旋共振数据证明(OH)-O中心点和O-2(中心点)在光催化系统中起重要作用,电子转移与双Z方案机制一致。 ZnO导通带(CB)中的光生成的电子可以转移到Zn2SnO4的价带(VB),而SnO2的CB中的电子作为ZnO的VB的VB,ZnO的vB,化学结合的界面。因此,在更高的还原和氧化电位下发生还原和氧化反应,产生可以成功消除Z32的光催化降解后能够成功消除抗生素生物毒性的反应。

著录项

  • 来源
    《Journal of Hazardous Materials》 |2020年第15期|123017.1-123017.11|共11页
  • 作者

    Dong Shuying; Cui Lingfang; Tian Yujia; Xia Longji; Wu Yuhan; Yu Jianjia; Bagley David M.; Sun Jianhui; Fan Maohong;

  • 作者单位

    Henan Normal Univ Sch Environm Key Lab Yellow River & Huai River Water Environm Henan Key Lab Environm Pollut Control Minist Educ Xinxiang 453007 Henan Peoples R China;

    Henan Normal Univ Sch Environm Key Lab Yellow River & Huai River Water Environm Henan Key Lab Environm Pollut Control Minist Educ Xinxiang 453007 Henan Peoples R China;

    Henan Normal Univ Sch Environm Key Lab Yellow River & Huai River Water Environm Henan Key Lab Environm Pollut Control Minist Educ Xinxiang 453007 Henan Peoples R China;

    Henan Normal Univ Sch Environm Key Lab Yellow River & Huai River Water Environm Henan Key Lab Environm Pollut Control Minist Educ Xinxiang 453007 Henan Peoples R China;

    Henan Normal Univ Sch Environm Key Lab Yellow River & Huai River Water Environm Henan Key Lab Environm Pollut Control Minist Educ Xinxiang 453007 Henan Peoples R China;

    New Mexico Inst Min & Technol Petr Recovery Res Ctr Socorro NM 87801 USA;

    Univ Wyoming Dept Chem Engn Laramie WY 82071 USA;

    Henan Normal Univ Sch Environm Key Lab Yellow River & Huai River Water Environm Henan Key Lab Environm Pollut Control Minist Educ Xinxiang 453007 Henan Peoples R China;

    Univ Wyoming Dept Chem Laramie WY 82071 USA|Georgia Inst Technol Sch Civil & Environm Engn Atlanta GA 30332 USA;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    ZnO-SnO2-Zn2SnO4; Tetradecahedral; Photocatalysts; Antibacterial activity; Double Z-scheme heterojunction;

    机译:ZnO-SnO2-Zn2SNO4;四面八面;光催化剂;抗菌活性;双Z方案异质结;

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