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首页> 外文期刊>New Journal of Chemistry >Construction of a Z-scheme core-shell g-C3N4/MCNTs/BiOI nanocomposite semiconductor with enhanced visible-light photocatalytic activity
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Construction of a Z-scheme core-shell g-C3N4/MCNTs/BiOI nanocomposite semiconductor with enhanced visible-light photocatalytic activity

机译:具有增强的可见光光催化活性的Z样方核 - 壳G-C3N4 / MCNT / BioI纳米复合半导体的构建

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摘要

A novel Z-scheme core-shell g-C3N4/MCNTs/BiOI heterojunction was successfully designed and fabricated through filling multi-walled carbon nanotubes (MCNTs) with g-C3N4, followed by the loading of BiOI on the outer surface of the MCNTs. The structure-property relationship was analyzed by X-ray diffraction (XRD), Fourier transform infrared spectra (FT-IR), scanning electron microscopy (SEM), transmission electron microscopy (TEM), UV-vis diffuse reflectance spectra (DRS), photoluminescence spectra (PL), ESR probe tests and reactive species trapping measurements. The results show that the BiOI nanoparticles are uniformly loaded on the surface of the MCNTs which are fully filled by g-C3N4. The MCNTs connect the two semiconductors of g-C3N4 and BiOI, and serve as electron mediating conductors to promote the transfer of the photo-generated electrons, thereby constructing a Z-scheme heterojunction between g-C3N4 and BiOI. With this unique structure, enhanced visible-light photocatalytic activities are achieved because of the synergistic effect of light harvesting and improved separation efficiency of photo-generated carriers.
机译:一种新的Z-方案的核 - 壳G-C3N4 /的mCNT / BiOI异质结成功地设计并通过填充多壁碳纳米管(的mCNT)与G-C3N4,随后BiOI的的mCNT的外表面上的负载来制造。通过X射线衍射(XRD),傅里叶变换红外光谱(FT-IR),扫描电子显微镜(SEM),透射电子显微镜(TEM),UV-Vis弥射反射光谱(DRS),分析结构 - 性质关系。光致发光光谱(PL),ESR探针测试和反应物种捕获测量。结果表明,生物纳米颗粒均匀地装载在由G-C3N4完全填充的MCNT的表面上。 MCNTS连接G-C3N4和生物的两个半导体,并用作电子介导导体,以促进光生电子的转移,从而构建G-C3N4和BioI之间的Z形方向异质结。通过这种独特的结构,由于光收集的协同效应和提高了光产生的载体的分离效率,因此实现了增强的可见光光催化活动。

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  • 来源
    《New Journal of Chemistry》 |2018年第1期|共8页
  • 作者

    You Zengyu; Shen Qianhong; Su Yuxuan; Yu Yang; Wang Hui; Qin Tian; Zhang Fang; Cheng Di; Yang Hui;

  • 作者单位

    Zhejiang Univ Sch Mat Sci &

    Engn State Key Lab Silicon Mat Hangzhou 310027 Zhejiang Peoples R China;

    Zhejiang Univ Sch Mat Sci &

    Engn State Key Lab Silicon Mat Hangzhou 310027 Zhejiang Peoples R China;

    Zhejiang Univ Sch Mat Sci &

    Engn State Key Lab Silicon Mat Hangzhou 310027 Zhejiang Peoples R China;

    Zhejiang Univ Sch Mat Sci &

    Engn State Key Lab Silicon Mat Hangzhou 310027 Zhejiang Peoples R China;

    Zhejiang Univ Sch Mat Sci &

    Engn State Key Lab Silicon Mat Hangzhou 310027 Zhejiang Peoples R China;

    Zhejiang Univ Sch Mat Sci &

    Engn State Key Lab Silicon Mat Hangzhou 310027 Zhejiang Peoples R China;

    Zhejiang Univ Zhejiang Calif Int NanoSyst Inst Hangzhou 310058 Zhejiang Peoples R China;

    Zhejiang Univ Zhejiang Calif Int NanoSyst Inst Hangzhou 310058 Zhejiang Peoples R China;

    Zhejiang Univ Sch Mat Sci &

    Engn State Key Lab Silicon Mat Hangzhou 310027 Zhejiang Peoples R China;

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