Solid-state synthesis of La0.75Gd0.25FeO3 nanoparticles for the enhanced photodegradation of methylene blue under sunlight irradiation

IF 1.7 4区 化学 Q4 CHEMISTRY, PHYSICAL
Noura Abdessalem, Zelikha Necira, Hayet Menasra, Salah Eddine Hachani, Achouak Achour, Sofiane Makhloufi, Rahima Rahal, Asma Dahri, Lynda Djoudi
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Abstract

The perovskite powder La0.75Gd0.25FeO3, abbreviated as LGFO, has been successfully synthesized via a solid–solid process and thoroughly investigated using various laboratory techniques. X-ray diffraction (XRD) analysis revealed that the studied powder exhibits an orthorhombic crystal system with the space group Pbnm, accompanied by the formation of nanometric crystallites measuring approximately 41 nm at a synthesis temperature of 1200 °C. The scanning electron microscope (SEM) image exhibits a uniform distribution of grains across the sample surface. Notably, the band gap value of LGFO was estimated using Tauc plot to be 2.40 eV, this value is lower than that of the pure LaFeO3 phase, and discrepancy attributed to variations in crystallite size and the presence of substituted dopant ions. In a photocatalytic evaluation, LGFO demonstrated remarkable activity in degrading methylene blue (MB) under sunlight irradiation, surpassing the performance of pure LaFeO3. The decomposition yield reached up to 61% after 120 min of solar exposure, exhibiting a first-order reaction kinetics behavior with an estimated rate constant of 0.00838 min−1.

Abstract Image

固态合成 La0.75Gd0.25FeO3 纳米粒子以增强日光照射下亚甲基蓝的光降解能力
通过固-固工艺成功合成了透辉石粉末 La0.75Gd0.25FeO3(简称 LGFO),并利用各种实验室技术对其进行了深入研究。X 射线衍射(XRD)分析表明,所研究的粉末呈现出空间群为 Pbnm 的正方晶系,并在 1200 °C 的合成温度下形成了尺寸约为 41 nm 的纳米晶体。扫描电子显微镜(SEM)图像显示,整个样品表面的晶粒分布均匀。值得注意的是,根据陶克曲线图估算,LGFO 的带隙值为 2.40 eV,该值低于纯 LaFeO3 相,差异归因于结晶尺寸的变化和替代掺杂离子的存在。在光催化评估中,LGFO 在日光照射下降解亚甲基蓝(MB)方面表现出显著的活性,超过了纯 LaFeO3 的性能。在太阳光照射 120 分钟后,分解率高达 61%,表现出一阶反应动力学行为,估计速率常数为 0.00838 min-1。
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来源期刊
CiteScore
3.30
自引率
5.60%
发文量
201
审稿时长
2.8 months
期刊介绍: Reaction Kinetics, Mechanisms and Catalysis is a medium for original contributions in the following fields: -kinetics of homogeneous reactions in gas, liquid and solid phase; -Homogeneous catalysis; -Heterogeneous catalysis; -Adsorption in heterogeneous catalysis; -Transport processes related to reaction kinetics and catalysis; -Preparation and study of catalysts; -Reactors and apparatus. Reaction Kinetics, Mechanisms and Catalysis was formerly published under the title Reaction Kinetics and Catalysis Letters.
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