Photocatalytic activity of ZnxCd0.8−xMn0.2Al0.1Fe1.9O4, (X = 0, 0.3) spinel ferrite for photodegradation of Congo red dye

IF 1.7 4区 化学 Q4 CHEMISTRY, PHYSICAL
Muhammad Yasar, Muhammad Ibrahim, Muhammad Zeeshan, Khalid Javed, Fozia Noreen
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Abstract

In this study, we investigated the photocatalytic degradation of Congo red dye using zinc-doped cadmium manganese aluminum ferrite nanoparticles (ZnxCd0.8−xMn0.2Al0.1Fe1.9O4, X = 0, 0.3). Ferrite catalysts were synthesized via a sol–gel method and extensively characterized to understand the impact of Zn doping on their structural, morphological, and textural properties. FTIR, SEM, EDX, and BET analyses confirmed that Zn doping modified the characteristics of the catalyst. Zn doping decreased the crystallite size and lattice parameters, increased the FWHM and density, and shifted the metal–oxygen bond vibration peaks. The SEM images showed that Zn doping refined the particle size and improved the morphology, confirming the incorporation of Zn. The BET analysis revealed that Zn doping enhanced the surface area, pore volume, and pore radius. The undoped photocatalyst possessed a bandgap of 2.8 eV, while Zn-doping led to a narrower bandgap (2.6 eV), consequently enhancing visible light absorption. The Zn-doped catalyst achieved 93.12% Congo red degradation at pH 7, 30 °C, 80 min and concentration of Congo red dye 10 ppm, significantly outperforming the undoped catalyst (62.45%). Zn doping improved charge separation and promoted the generation of reactive oxygen species (ROS), leading to enhanced photodegradation efficiency. Scavenger studies confirmed the crucial role of hydroxyl radicals in the degradation process. Furthermore, the Zn-doped catalyst maintained an 81.03% degradation efficiency even after five consecutive cycles, indicating promising recyclability. These findings highlight the potential of Zn-doped cadmium manganese aluminum ferrite as an efficient and stable photocatalyst for remediation of Congo red-contaminated wastewater.

Abstract Image

Abstract Image

ZnxCd0.8-xMn0.2Al0.1Fe1.9O4, (X = 0, 0.3) 尖晶石铁氧体光降解刚果红染料的光催化活性
在这项研究中,我们利用锌掺杂的镉锰铝铁氧体纳米粒子(ZnxCd0.8-xMn0.2Al0.1Fe1.9O4,X = 0,0.3)研究了刚果红染料的光催化降解。铁氧体催化剂是通过溶胶-凝胶法合成的,并对其进行了广泛表征,以了解掺杂锌对其结构、形态和纹理特性的影响。傅立叶变换红外光谱(FTIR)、扫描电子显微镜(SEM)、电子衍射X 和 BET 分析证实,锌掺杂改变了催化剂的特性。掺杂锌降低了晶粒尺寸和晶格参数,增加了全宽和密度,并移动了金属氧键振动峰。扫描电镜图像显示,掺入的锌细化了颗粒尺寸,改善了形态,证实了锌的掺入。BET 分析表明,掺杂 Zn 增加了比表面积、孔体积和孔半径。未掺杂的光催化剂具有 2.8 eV 的带隙,而掺杂 Zn 后带隙变窄(2.6 eV),从而增强了对可见光的吸收。在 pH 值为 7、温度为 30 °C、时间为 80 分钟、刚果红染料浓度为 10 ppm 的条件下,掺杂锌的催化剂实现了 93.12% 的刚果红降解,明显优于未掺杂的催化剂(62.45%)。锌掺杂改善了电荷分离,促进了活性氧(ROS)的生成,从而提高了光降解效率。清除剂研究证实了羟基自由基在降解过程中的关键作用。此外,掺杂锌的催化剂在连续使用五个周期后仍能保持 81.03% 的降解效率,这表明催化剂具有良好的可回收性。这些发现凸显了掺锌镉锰铝铁氧体作为一种高效、稳定的光催化剂在修复刚果红污染废水方面的潜力。
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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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