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首页> 外文期刊>Journal of Catalysis >Photocatalytic synthesis of N-benzyleneamine from benzylamine on ultrathin BiOCl nanosheets under visible light
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Photocatalytic synthesis of N-benzyleneamine from benzylamine on ultrathin BiOCl nanosheets under visible light

机译:从苄胺对明光下超薄Buocl纳米蛋白苄胺的光催化合成N-苄基胺

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摘要

Ultrathin BiOCl nanosheets (NST) with the thickness about 1.5 nm was prepared as a photocatalyst for the oxidation of benzylamine (BA) to N-benzyleneamine under visible light. The photocatalytic activity of NST is over 2.5 times higher than that of its bulk counterpart. More oxygen vacancies (OVs) in NST were revealed by EPR and XPS. UV-DRS result indicates that light adsorption of NST can be extended to visible light due to the presence of OVs. In addition, rich OVs result in Bi atoms in sublayer to be exposed as Lewis acid sites. In situ FTIR spectrum shows that BA is chemosorbed on the Lewis acid sites forming surface -N center dot center dot center dot Bi- coordination species, resulting in the activation of BA. The surface coordination species would also result in the red shift of the photo-absorption spectrum. Finally, a synergistic mechanism based on surface coordination activation and photocatalysis was proposed to explain the enhanced photocatalytic activity over NST. (C) 2019 Elsevier Inc. All rights reserved.
机译:厚度约为1.5nm的超薄BioCl纳米片(NST)被制备为在可见光下氧化苄胺(Ba)氧化苄胺(Ba)至N-苄基胺的光催化剂。 NST的光催化活性比其散装对应物高出2.5倍。 EPR和XPS揭示了NST中更多的氧空位(OVS)。 UV-DRS结果表明,由于OVS存在,NST的光吸附可以延伸到可见光。此外,富含ovs导致子层中的Bi原子暴露为Lewis酸部位。原位FTIR光谱表明,BA在形成表面-N中心点中心点中心点Bi-协调物种的Lewis酸场上进行了化学吸收,导致Ba的活化。表面配位物种还将导致光吸收光谱的红色移位。最后,提出了一种基于表面配位激活和光催化的协同机理,用于解释在NST上增强的光催化活性。 (c)2019 Elsevier Inc.保留所有权利。

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  • 来源
    《Journal of Catalysis》 |2019年第2019期|共9页
  • 作者

    Ren Yahang; Zou Junhua; Jing Kaiqiang; Liu Yanyang; Guo Binbin; Song Yujie; Yu Yan; Wu Ling;

  • 作者单位

    Fuzhou Univ State Key Lab Photocatalysis Energy &

    Environm Fuzhou 350116 Fujian Peoples R China;

    Fuzhou Univ State Key Lab Photocatalysis Energy &

    Environm Fuzhou 350116 Fujian Peoples R China;

    Fuzhou Univ State Key Lab Photocatalysis Energy &

    Environm Fuzhou 350116 Fujian Peoples R China;

    Fuzhou Univ State Key Lab Photocatalysis Energy &

    Environm Fuzhou 350116 Fujian Peoples R China;

    Fuzhou Univ State Key Lab Photocatalysis Energy &

    Environm Fuzhou 350116 Fujian Peoples R China;

    Fuzhou Univ State Key Lab Photocatalysis Energy &

    Environm Fuzhou 350116 Fujian Peoples R China;

    Fujian Prov Univ Fuzhou Univ Key Lab Ecomat Adv Technol Fuzhou Fujian Peoples R China;

    Fuzhou Univ State Key Lab Photocatalysis Energy &

    Environm Fuzhou 350116 Fujian Peoples R China;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 催化;
  • 关键词

    Ultrathin BiOCl nanosheets; Oxygen vacancy; Surface coordination; Photocatalytic; Benzylamine; N-benzyleneamine;

    机译:超薄Biocl纳米蛋白酶;氧气空位;表面协调;光催化;苄胺;N-苄基麦氨胺;

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