Construction of novel spherical ZnIn2S4–Ag–LaFeO3 heterostructures for enhancing photocatalytic efficiency

IF 5.2 1区化学 Q1 CHEMISTRY, APPLIED

Journal of Rare Earths Pub Date : 2024-02-05 DOI:10.1016/j.jre.2024.02.002

Dongsheng Jia, Jiaxuan Pan, Dongliang Zhang, Mitang Wang, Ying Li

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Abstract

Herein we report novel photocatalysts ZnIn₂S₄–Ag–LaFeO₃ with the core–shell structured materials prepared by hydrothermal method. In order to improve the efficiency of photocatalytic degradation of pollutants, LaFeO₃ was prepared by hydrothermal followed by calcination, and further Ag nanoparticle (NP) was loaded onto the spherical structure of LaFeO₃ by photolysis of silver nitrate, and finally the spherical ZnIn₂S₄–Ag–LaFeO₃ photocatalyst was prepared by hydrothermal method again. The structure and properties of the as-prepared materials were characterized by X-ray photoelectron spectroscopy, ultraviolet–visible absorption spectroscopy, X-ray diffraction, scanning electron microscopy and fluorescence spectra. The results show that the synthesized composite photocatalysts display a significant improvement in photocatalytic efficiency relative to the single LaFeO₃ and ZnIn₂S₄ and form a core–shell structure. Furthermore, the effect of the ratio of each component on the photocatalytic efficiency was investigated in detail, and it is discovered that at an Methylene Blue (MB) concentration of 0.219 mol/L, the degradation rate of MB is 95% at 120 min using 0.02 g of catalyst with an ideal ZnIn₂S₄:Ag:LaFeO₃ ratio of 10:0.5:1. The possible mechanisms to improve the photocatalytic efficiency were explored.

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构建新型球形 ZnIn2S4-Ag-LaFeO3 异质结构以提高光催化效率

在此，我们报告了通过水热法制备的具有核壳结构材料的新型光催化剂 ZnIn2S4-Ag-LaFeO3。为了提高光催化降解污染物的效率，我们采用水热法制备了煅烧后的 LaFeO3，并利用硝酸银的光解作用将银纳米粒子（NP）负载到球形结构的 LaFeO3 上，最后再次采用水热法制备了球形的 ZnIn2S4-Ag-LaFeO3 光催化剂。通过 X 射线光电子能谱、紫外可见吸收光谱、X 射线衍射、扫描电子显微镜和荧光光谱对所制备材料的结构和性质进行了表征。结果表明，与单一的 LaFeO3 和 ZnIn2S4 相比，合成的复合光催化剂的光催化效率显著提高，并形成了核壳结构。此外，还详细研究了各组分比例对光催化效率的影响，发现在亚甲基蓝（MB）浓度为 0.219 摩尔/升时，理想的 ZnIn2S4:Ag:LaFeO3 比例为 10:0.5:1，使用 0.02 克催化剂，120 分钟内 MB 的降解率为 95%。探讨了提高光催化效率的可能机制。

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来源期刊

Journal of Rare Earths 化学-应用化学

CiteScore

8.70

自引率

14.30%

发文量

374

审稿时长

1.7 months

期刊介绍： The Journal of Rare Earths reports studies on the 17 rare earth elements. It is a unique English-language learned journal that publishes works on various aspects of basic theory and applied science in the field of rare earths (RE). The journal accepts original high-quality original research papers and review articles with inventive content, and complete experimental data. It represents high academic standards and new progress in the RE field. Due to the advantage of abundant RE resources of China, the research on RE develops very actively, and papers on the latest progress in this field emerge every year. It is not only an important resource in which technicians publish and obtain their latest research results on RE, but also an important way of reflecting the updated progress in RE research field. The Journal of Rare Earths covers all research and application of RE rare earths including spectroscopy, luminescence and phosphors, rare earth catalysis, magnetism and magnetic materials, advanced rare earth materials, RE chemistry & hydrometallurgy, RE metallography & pyrometallurgy, RE new materials, RE solid state physics & solid state chemistry, rare earth applications, RE analysis & test, RE geology & ore dressing, etc.