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首页> 外文期刊>Journal of Catalysis >Rational design 2D/2D BiOBr/CDs/g-C3N4 Z-scheme heterojunction photocatalyst with carbon dots as solid-state electron mediators for enhanced visible and NIR photocatalytic activity: Kinetics, intermediates, and mechanism insight
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Rational design 2D/2D BiOBr/CDs/g-C3N4 Z-scheme heterojunction photocatalyst with carbon dots as solid-state electron mediators for enhanced visible and NIR photocatalytic activity: Kinetics, intermediates, and mechanism insight

机译:理性设计2D / 2D BioBR / CDS / G-C3N4 Z转案异质结光催化与碳点作为固态电子介质,用于增强可见和Nir光催化活动:动力学,中间体和机制洞察力

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摘要

Rapid recombination of photogenerated carriers and narrow visible light absorption range are two main defects in graphitic carbon nitride (g-C3N4)-based photocatalysts. To address these problems, construction of Z-scheme 2D/2D BiOBr/CDs/g-C3N4 heterojunction photocatalysts with carbon dots as solid-state electron mediators has been investigated. The resultant BiOBr/CDs/g-C3N4 hybrids exhibits remarkable interfacial charge transfer abilities and a broadened solar light absorption range owing to the short charge transport distance and the up-converted photoluminescence character of CDs. Simultaneously, the enhanced specific surface area and nanosheet structure impart more active sites to BiOBr/CDs/g-C3N4 composites. As a result, BiOBr/CDs/g-C3N4 composites reveal significant enhancement in the activity of photodegradation of ciprofloxacin (CIP) and tetracycline (TC) under visible and near infrared (NIR) light irradiation. Moreover, the photodegradation efficiency of BiOBr/CDs/g-C3N4 hybrids was significantly enhanced over that of pristine BiOBr nanosheets and g-C3N4 ultrathin nanosheets. The photocatalytic mechanism is expounded according to free radical capture experiments and electron spin resonance spin-trapping tests and the photodegradation intermediates of CIP were detected by liquid chromatography-mass/mass spectrometry. Moreover, BiOBr/CDs/g-C3N4 composites show excellent photostability and reusability after four runs for CIP degradation. (C) 2018 Elsevier Inc. All rights reserved.
机译:光生载体的快速重组和窄的可见光吸收范围是基质氮化物(G-C3N4)的光催化剂中的两个主要缺陷。为了解决这些问题,研究了Z形方案2D / 2D BioBR / CDS / G-C3N4异质结光催化剂的构建,作为固态电子介质的碳点。由于短的电荷传输距离和Cd的上转换的光致发光性,所得BioBR / Cds / G-C3N4杂种具有显着的界面电荷转移能力和扩大的太阳光吸收范围。同时,增强的比表面积和纳米片结构赋予BioBR / CDS / G-C3N4复合材料的更多活动位点。结果,BioBR / CDS / G-C3N4复合材料揭示了在可见光和近红外(NIR)光照射下的环丙沙星(CIP)和四环素(TC)的光降解活性的显着增强。此外,在原始BioBR纳米蛋白酶和G-C3N4超薄纳米片中显着增强了BioBR / Cds / G-C3N4杂种的光降解效率。根据自由基捕获实验和电子自旋共振自旋捕获试验来阐述光催化机制,并通过液相色谱 - 质量/质谱法检测CIP的光降解中间体。此外,BioBR / Cds / G-C3N4复合材料在四个次数劣化后显示出优异的光稳定性和可重用性。 (c)2018年Elsevier Inc.保留所有权利。

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  • 来源
    《Journal of Catalysis》 |2019年第2019期|共13页
  • 作者

    Zhang Mingming; Lai Cui; Li Bisheng; Huang Danlian; Zeng Guangming; Xu Piao; Qin Lei; Liu Shiyu; Liu Xigui; Yi Huan; Li Minfang; Chu Chengcheng; Chen Zhang;

  • 作者单位

    Hunan Univ Coll Environm Sci &

    Engn Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Environm Sci &

    Engn Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Environm Sci &

    Engn Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Environm Sci &

    Engn Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Environm Sci &

    Engn Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Environm Sci &

    Engn Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Environm Sci &

    Engn Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Environm Sci &

    Engn Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Environm Sci &

    Engn Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Environm Sci &

    Engn Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Environm Sci &

    Engn Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Environm Sci &

    Engn Changsha 410082 Hunan Peoples R China;

    Hunan Prov Key Lab Coal Resources Clean Utilizat Changsha Hunan Peoples R China;

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  • 正文语种 eng
  • 中图分类 催化;
  • 关键词

    Photocatalysis; Z-scheme system; Photocatalytic activity; BiOBr/CDs/g-C3N4; Photocatalytic mechanism;

    机译:光催化;Z-Scheme System;光催化活性;BioBR / CDS / G-C3N4;光催化机制;

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