Hybrid magnetic core–shell TiO2@CoFe3O4 composite towards visible light-driven photodegradation of Methylene blue dye and the heavy metal adsorption: isotherm and kinetic study

IF 3 4区 环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL
Mahmoud F. Mubarak, Hanaa Selim, Rania Elshypany
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引用次数: 12

Abstract

Magnetic core–shell TiO2@CoFe3O4 (TCM) composite photocatalytic particles with a core–shell structure were synthesized by the co-precipitation method as a novel catalyst for methylene blue (MB) dye degradation and adsorption efficiency of heavy-metal ion Pb(II) from aqueous solution. Various analytical techniques have verified the formation of the TCM core–shell through TEM, XRD, FT-IR, Raman, PL, and UV analysis. The presence of TiO2 and cobalt magnetite in the TCM core shell is confirmed by XRD analysis. The formation of a homogenous CoFe3O4shell on TiO2 spheres is confirmed by HR-TEM investigation. TiO2 nanoparticle has a rutile structure with an average crystallite size of about 57.44 and a TCM core–shell of about 64.62 nm. From UV and PL studies, it was found that the core shell absorbs the visible range of the electromagnetic spectrum, which improves the effective separation between photo carriers. This study focused on several factors that influence metal ion adsorption, including initial concentrations, adsorbent dose, pH, and contact time. The TCM nanocomposite successfully separated the heavy metal ion Pb(II) from aqueous solutions, and the model predictions exactly matched the experimental results. For TCM material, the maximum adsorption efficiency for Pb(II) was 33.09 mg/g. The photocatalytic performance of TiO2 and TCM is about 12% and 91% after 60 min for MB dye degradation. It was found that TiO2@CoFe3O4 core–shell nanoparticles perform better as photo catalysts than pure TiO2 and CoFe3O4due to their high efficiency and reusability. Furthermore, the analysis revealed that heavy metal adsorption from aqueous solutions could be reused over seven cycles with no adsorption capacity modification.

Abstract Image

杂化磁核-壳TiO2@CoFe3O4复合材料对亚甲基蓝染料可见光降解及重金属吸附的等温线和动力学研究
采用共沉淀法合成了具有核壳结构的磁性核壳TiO2@CoFe3O4 (TCM)复合光催化颗粒,作为亚甲基蓝(MB)染料降解和吸附水中重金属离子Pb(II)的新型催化剂。各种分析技术通过TEM, XRD, FT-IR, Raman, PL和UV分析证实了TCM核壳的形成。通过XRD分析证实了TCM核壳中存在TiO2和钴磁铁矿。通过HR-TEM研究证实了cofe3o4在TiO2球上形成了均相的壳层。TiO2纳米粒子具有金红石结构,平均晶粒尺寸约为57.44,TCM核壳尺寸约为64.62 nm。从紫外和PL研究中发现,核壳吸收了电磁波谱的可见范围,提高了光载流子之间的有效分离。本研究的重点是影响金属离子吸附的几个因素,包括初始浓度、吸附剂剂量、pH值和接触时间。TCM纳米复合材料成功地从水溶液中分离出重金属离子Pb(II),模型预测与实验结果吻合较好。中药材料对Pb(II)的最大吸附效率为33.09 mg/g。TiO2和TCM在60 min后对MB染料降解的光催化性能分别为12%和91%。研究发现,TiO2@CoFe3O4核壳纳米粒子具有高效、可重复利用的特点,比纯TiO2和cofe3o4具有更好的光催化剂性能。此外,分析表明,在不改变吸附容量的情况下,从水溶液中吸附的重金属可以重复使用7次以上。
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来源期刊
Journal of Environmental Health Science and Engineering
Journal of Environmental Health Science and Engineering ENGINEERING, ENVIRONMENTAL-ENVIRONMENTAL SCIENCES
CiteScore
7.50
自引率
2.90%
发文量
81
期刊介绍: Journal of Environmental Health Science & Engineering is a peer-reviewed journal presenting timely research on all aspects of environmental health science, engineering and management. A broad outline of the journal''s scope includes: -Water pollution and treatment -Wastewater treatment and reuse -Air control -Soil remediation -Noise and radiation control -Environmental biotechnology and nanotechnology -Food safety and hygiene
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