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Fabrication of Z-scheme photocatalyst, Er3+:Y3Al5O12@NiGa2O4-MWCNTs-WO3, and visible-light photocatalytic activity for degradation of organic pollutant with simultaneous hydrogen evolution

Author

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  • Tang, Liang
  • Wang, Jing
  • Liu, Xudong
  • Shu, Xiaoqing
  • Zhang, Zhaohong
  • Wang, Jun

Abstract

Three new visible-light-induced Z-scheme photocatalytic systems, Er3+:Y3Al5O12@NiGa2O4-WO3, Er3+:Y3Al5O12@NiGa2O4-MWCNTs (10–20 nm)-WO3 and Er3+:Y3Al5O12@NiGa2O4-MWCNTs (40–60 nm)-WO3, are successfully prepared via hydrothermal method. The prepared photocatalysts are characterized by X-ray diffractometer (XRD), energy dispersive X-ray spectroscopy (EDX), X-ray photoelectron spectroscopy (XPS), scanning electron microscopy (SEM), transmission electron microscopy (TEM), Fourier-transform infrared (FT-IR) and photoluminescence (PL) spectra. UV–vis absorption and PL spectra were also determined to explore luminescence effect of the Er3+:Y3Al5O12. The photocatalytic activities of prepared photocatalysts are evaluated and compared under simulated solar-light irradiation in degradation of organic pollutant with simultaneous hydrogen evolution. The influence factors such as simulated solar-light irradiation time and photocatalyst amount on the photocatalytic activities of prepared photocatalysts are investigated. The results show that the Er3+:Y3Al5O12@NiGa2O4-MWCNTs (40–60 nm)-WO3 is the best one of three prepared photocatalysts in the degradation of methylene blue with simultaneous hydrogen evolution under simulated solar-light irradiation. In addition, the Er3+:Y3Al5O12@NiGa2O4-MWCNTs (40–60 nm)-WO3 also displays high performance in five repeated experiments. At last, the process of photocatalytic degradation of organic pollutant with simultaneous hydrogen evolution caused by Er3+:Y3Al5O12@NiGa2O4-MWCNTs (40–60 nm)-WO3 is proposed.

Suggested Citation

  • Tang, Liang & Wang, Jing & Liu, Xudong & Shu, Xiaoqing & Zhang, Zhaohong & Wang, Jun, 2019. "Fabrication of Z-scheme photocatalyst, Er3+:Y3Al5O12@NiGa2O4-MWCNTs-WO3, and visible-light photocatalytic activity for degradation of organic pollutant with simultaneous hydrogen evolution," Renewable Energy, Elsevier, vol. 138(C), pages 474-488.
    • Handle: RePEc:eee:renene:v:138:y:2019:i:c:p:474-488
    DOI: 10.1016/j.renene.2019.01.113
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    References listed on IDEAS

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    1. Wei, Shengnan & Song, Yahui & Rong, Yang & Tang, Liang & Chen, Yang & Lu, Chunxiao & Zhang, Zhaohong & Wang, Jun, 2017. "A novel Z-scheme Er3+:YAlO3/Ta2O5-CaIn2S4/MoSe2-reduced graphene oxide photocatalyst with superior photocatalytic hydrogen evolution activity," Renewable Energy, Elsevier, vol. 111(C), pages 628-637.
    2. Su, En-Chin & Huang, Bing-Shun & Liu, Chao-Chang & Wey, Ming-Yen, 2015. "Photocatalytic conversion of simulated EDTA wastewater to hydrogen by pH-resistant Pt/TiO2–activated carbon photocatalysts," Renewable Energy, Elsevier, vol. 75(C), pages 266-271.
    3. Wang, Yan & Shen, Yan & Qi, Kezhen & Cao, Zhongqiu & Zhang, Ke & Wu, Shiwei, 2016. "Nanostructured cobalt–phosphorous catalysts for hydrogen generation from hydrolysis of sodium borohydride solution," Renewable Energy, Elsevier, vol. 89(C), pages 285-294.
    4. Lee, Gang-Juan & Anandan, Sambandam & Masten, Susan J. & Wu, Jerry J., 2016. "Photocatalytic hydrogen evolution from water splitting using Cu doped ZnS microspheres under visible light irradiation," Renewable Energy, Elsevier, vol. 89(C), pages 18-26.
    5. Guo, Yuwei & Li, Yun & Li, Shuguang & Zhang, Lei & Li, Ying & Wang, Jun, 2015. "Enhancement of visible-light photocatalytic activity of Pt supported potassium niobate (Pt-KNbO3) by up-conversion luminescence agent (Er3+:Y3Al5O12) for hydrogen evolution from aqueous methanol solut," Energy, Elsevier, vol. 82(C), pages 72-79.
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    1. Madriz, Lorean & Tatá, José & Carvajal, David & Núñez, Oswaldo & Scharifker, Benjamín R. & Mostany, Jorge & Borrás, Carlos & Cabrerizo, Franco M. & Vargas, Ronald, 2020. "Photocatalysis and photoelectrochemical glucose oxidation on Bi2WO6: Conditions for the concomitant H2 production," Renewable Energy, Elsevier, vol. 152(C), pages 974-983.

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