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首页> 外文期刊>Journal of Colloid and Interface Science >Efficient interfacial charge transfer of 2D/2D porous carbon nitride/bismuth oxychloride step-scheme heterojunction for boosted solar-driven CO2 reduction
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Efficient interfacial charge transfer of 2D/2D porous carbon nitride/bismuth oxychloride step-scheme heterojunction for boosted solar-driven CO2 reduction

机译:高效界面电荷转移2D / 2D多孔碳氮化物/磷酸乙酰乙氧烷值方案的异质结,用于增强太阳能驱动的CO2还原

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摘要

Heterostructured photocatalysts are promising candidates in the photocatalysis field, and the heterojunction plays a vital role in the separation of spatial charge carriers. Here, a heterojunction was fabricated by the in situ growth of ultrathin Bi12O17Cl2 (BOC) nanosheets (NSs) onto porous g-C3N4 (PGCN) NSs. The NSs' nanostructure can effectively shorten the diffusion path of charge carriers and thus promote interfacial charge migration, which can improve the surface photocatalytic activity. The X-ray photoelectron spectroscopy spectra and the experimental measured Fermi level (E-F) indicate that electrons transfer from PGCN to BOC, which leads to the formation of the built-in electric field with the orientation from PGCN to BOC. Driven by the built-in electric field, the charge carriers transfer through a step-like pathway. This step-scheme porous g-C3N4/Bi12O17Cl2 (PGCN/BOC) heterostructured nanocomposite displays an enhanced photocatalytic performance compared with pure BOC and PGCN. This work provides new insight into the novel construction of a step-scheme heterojunction toward photocatalytic CO2 reduction. (C) 2020 Elsevier Inc. All rights reserved.
机译:异质结构光催化剂是光催化领域中很有前途的候选材料,而异质结在空间电荷载流子的分离中起着至关重要的作用。在这里,通过在多孔g-C3N4(PGCN)NSs上原位生长超薄Bi12O17Cl2(BOC)纳米片(NSs)来制备异质结。NSs的纳米结构可以有效缩短载流子的扩散路径,从而促进界面电荷迁移,从而提高表面光催化活性。X射线光电子能谱和实验测得的费米能级(E-F)表明,电子从PGCN转移到BOC,从而形成从PGCN定向到BOC的内置电场。在内置电场的驱动下,电荷载流子通过阶梯状路径转移。与纯BOC和PGCN相比,多孔g-C3N4/Bi12O17Cl2(PGCN/BOC)异质结构纳米复合材料具有更好的光催化性能。这项工作为光催化CO2还原的阶梯式异质结的新结构提供了新的见解。(C) 2020爱思唯尔公司版权所有。

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  • 作者

    Huo Yao; Zhang Jinfeng; Wang Zhongliao; Dai Kai; Pan Chengsi; Liang Changhao;

  • 作者单位

    Huaibei Normal Univ Key Lab Green &

    Precise Synthet Chem &

    Applicat Anhui Prov Key Lab Pollutant Sensit Mat &

    Environ Minist Educ Sch Phys &

    Elect Informat Huaibei 235000 Anhui Peoples R China;

    Huaibei Normal Univ Key Lab Green &

    Precise Synthet Chem &

    Applicat Anhui Prov Key Lab Pollutant Sensit Mat &

    Environ Minist Educ Sch Phys &

    Elect Informat Huaibei 235000 Anhui Peoples R China;

    Huaibei Normal Univ Key Lab Green &

    Precise Synthet Chem &

    Applicat Anhui Prov Key Lab Pollutant Sensit Mat &

    Environ Minist Educ Sch Phys &

    Elect Informat Huaibei 235000 Anhui Peoples R China;

    Huaibei Normal Univ Key Lab Green &

    Precise Synthet Chem &

    Applicat Anhui Prov Key Lab Pollutant Sensit Mat &

    Environ Minist Educ Sch Phys &

    Elect Informat Huaibei 235000 Anhui Peoples R China;

    Jiangnan Univ Sch Chem &

    Mat Engn Wuxi 214122 Peoples R China;

    Chinese Acad Sci Hefei Inst Phys Sci Inst Solid State Phys Key Lab Mat Phys Hefei 230031 Peoples R China;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 表面现象的物理化学;胶体化学(分散体系的物理化学);
  • 关键词

    Step-scheme heterojunction; Bi12O17Cl2; g-C3N4; Build-in electric field; Photocatalytic CO2 reduction;

    机译:步骤方案异质结;Bi12O17Cl2;G-C3N4;建立电场;光催化二氧化碳还原;

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