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首页> 外文期刊>ACS applied materials & interfaces >InVO4/beta-AgVO3 Nanocomposite as a Direct Z-Scheme Photocatalyst toward Efficient and Selective Visible-Light-Driven CO2 Reduction
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InVO4/beta-AgVO3 Nanocomposite as a Direct Z-Scheme Photocatalyst toward Efficient and Selective Visible-Light-Driven CO2 Reduction

机译:INVO4 / BETA-AGVO3纳米复合物作为直接Z方案光催化剂,朝向有效和选择性可见光驱动的二氧化碳减少

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摘要

Photocatalytic CO2 reduction to solar fuel is a promising route to alleviate the ever-growing energy crisis and global warming. Herein, to enhance photoconversion efficiency of CO2 reduction, a series of direct Z-scheme composites consisting of beta-AgVO3 nanoribbons and InVO4 nanoparticles (InVO4/beta-AgVO3) are prepared via a facile hydrothermal method and subsequent in situ growth process. The prepared InVO4/beta-AgVO3 composites exhibit enhanced photocatalytic activity for reduction of CO2 to CO under visible-light illumination. A CO evolution rate of 12.61 mu mol.g(-1).h(-1) is achieved over the optimized 20% In-Ag without any cocatalyst or sacrificial agent, which is 11 times larger than that yielded by pure InVO4 (1.12 mu mol.g(-1).h(-1)). Moreover, the CO selectivity is more than 93% over H-2 production from the side reaction of H2O reduction. Significantly, based on the results of electron spin resonance (ESR) and in situ irradiated XPS tests, it is proposed that the synthesized InVO4/beta-AgVO3 catalysts comply with the direct Z-scheme transfer mechanism. Significantly improved photocatalytic activities for selective CO2 reduction could be primarily ascribed to effective separation of photoinduced electron-hole pairs and enhanced reducibility of photoelectrons at the conduction band of InVO4. This work provides a new insight for constructing highly efficient photocatalytic CO2 reduction systems toward solar fuel generation.
机译:光催化二氧化碳减少到太阳能燃料是一种有望的路线,以减轻不断增长的能源危机和全球变暖。在此,为了提高CO 2还原的光电转化效率,通过容易水热法制备由β-AGVO3纳米波巴和INVO4纳米颗粒(INVO4 / BETA-AGVO3)组成的一系列直接Z-方案复合材料并随后原位生长过程制备。制备的INO4 /β-AGVO3复合材料表现出增强的光催化活性,用于在可见光照射下还原CO2至CO.在没有任何助催化剂或牺牲剂的情况下,通过优化的20%达到12.61μmol.g(-1).h(-1)的CO进化率。 mmol.g(-1).h(-1))。此外,来自H 2 O还原的副反应,CO选择性超过H-2产生的93%。显着地,基于电子自旋共振(ESR)和原位辐照XPS测试的结果,提出合成的INO4 /β-AGVO3催化剂符合直接Z方案转移机制。可显着改善选择性CO2减少的光催化活性可以主要归因于有效分离光致电子 - 空穴对,并增强了ImO4的传导带上的光电子的可还原性。这项工作为构建高效的光催化二氧化碳减少系统提供了一种新的洞察力,用于太阳能燃料产生。

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  • 来源
    《ACS applied materials & interfaces》 |2019年第35期|共13页
  • 作者

    Yang Juan; Hao Jingyi; Xu Siyu; Wang Qi; Dai Jun; Zhang Anchao; Pang Xinchang;

  • 作者单位

    Henan Polytech Univ Coll Chem &

    Chem Engn Inst Appl Chem Jiaozuo 454003 Henan Peoples R China;

    Henan Polytech Univ Coll Chem &

    Chem Engn Inst Appl Chem Jiaozuo 454003 Henan Peoples R China;

    Henan Polytech Univ Coll Chem &

    Chem Engn Inst Appl Chem Jiaozuo 454003 Henan Peoples R China;

    Zhejiang Gongshang Univ Sch Environm Sci &

    Engn Hangzhou 310018 Zhejiang Peoples R China;

    Henan Polytech Univ Coll Chem &

    Chem Engn Inst Appl Chem Jiaozuo 454003 Henan Peoples R China;

    Henan Polytech Univ Coll Chem &

    Chem Engn Inst Appl Chem Jiaozuo 454003 Henan Peoples R China;

    Zhengzhou Univ Sch Mat Sci &

    Engn Zhengzhou 450001 Henan Peoples R China;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 化学工业;
  • 关键词

    direct Z-scheme; photocatalysis; CO2 reduction; InVO4; beta-AgVO3;

    机译:直接Z方案;光催化;CO2减少;INVO4;BETA-AGVO3;

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