Ni2P/g-C3N4/ZnIn2S4复合材料的制备及其光还原CO2性能研究
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南京信息工程大学

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国家自然科学基金(青年项目)


Construction of Ni2P/g-C3N4/ZnIn2S4 photocatalysts and their boosted photocatalytic reduction of CO2
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Jiangsu Collaborative Innovation Center of Atmospheric Environment and Equipment Technology CICAEET,Jiangsu Key Laboratory of Atmospheric Environment Monitoring and Pollution Control,School of Environmental Science and Engineering,Nanjing University of Information Science Technology

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The National Natural Science Foundation of China (Youth Program)

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    摘要:

    本文通过水热法合成Ni2P/g-C3N4/ZnIn2S4三元复合材料(CNZ),并通过光还原CO2性能测试来评价其催化性能。采用XRD、SEM、TEM、XPS、UV-vis、EIS、PL等表征手段对所有复合比例样品的形貌、晶体结构、表面元素化学态、能带结构和光电性能进行分析,结果表明通过晶面工程成功构建了界面紧密接触的异质结结构,同时Ni2P和g-C3N4的引入可有效改善复合材料的能带结构,缩短电荷传输距离并有效抑制光生载流子的复合率。因此,相较于g-C3N4和g-C3N4/ZnIn2S4复合材料(CZ),三元CNZ复合材料呈现出更高的催化性能,其中CNZ5(Ni2P:g-C3N4:ZnIn2S4=1:5:7)具有最佳的光催化还原CO2活性,其甲烷、甲醇和甲酸的产率分别达到114.72 μmol·h?1·g?1、17.38 μmol·h?1·g?1和20.15 μmol·h?1·g?1。此外,采用in-situ DRIFTS测试推导出光还原CO2机理,反应过程中的还原中间体为HCO3-与HCOOH。

    Abstract:

    Ternary composites Ni2P/g-C3N4/ZnIn2S4 were synthesized via a hydrothermal method, and their catalytic performance were evaluated by photoreduction of CO2. Kinds of characterizations (XRD, SEM, TEM, XPS, UV-vis, EIS, and PL) were applied to investigate the morphology, crystal structure, surface chemical states, band structure and photoelectric property of the composites. The results showed that the heterostructure with intense contact was constructed successfully via the facet engineering. Besides, the introduction of Ni2P and g-C3N4 could improve the band structure of photocatalysts, shorten the transmission distance of electrons and inhibit the recombination of photo-induced carriers effectively. Therefore, compared with pure g-C3N4 and binary composites g-C3N4/ZnIn2S4, ternary composites Ni2P/g-C3N4/ZnIn2S4 exhibited higher catalytic activity. Among Ni2P/g-C3N4/ZnIn2S4 composites, CNZ5 (Ni2P:g-C3N4:ZnIn2S4=1:5:7) revealed the optimal CO2 photoreduction efficiency, in which the yield amount of CH4, CH3OH, and HCOOH was 114.72 μmol·h?1·g?1, 17.38 μmol·h?1·g?1, and 20.15 μmol·h?1·g?1, respectively. In addition, the CO2 photoreduction mechanism was obtained by the application of in-situ DRIFTS, and the intermediates of HCO3- and HCOOH were found during the reaction process.

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王一,赵云霞,蔡炜. Ni2P/g-C3N4/ZnIn2S4复合材料的制备及其光还原CO2性能研究[J].南京信息工程大学学报,,():

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  • 收稿日期:2023-03-01
  • 最后修改日期:2023-03-17
  • 录用日期:2023-03-21
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