Aegle marmelos Leaf Extract Based Synthesis of Nanoiron and Nanoiron+Au Particles for Degradation of Methylene Blue

K. Tarangini, K. Rao, S. Wacławek, M. Černík, V. Padil
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Abstract

Abstract In this study, nanoiron and nanoiron+Au particles were synthesised using aqueous Aegle marmelos extract using a facile and one-pot approach. Lower size non-magnetic nanoiron (~34 nm) and nanoiron (~34 nm) +Au particles (1 to 1.5 µm) were produced from the same medium individually. Nanoparticles suspension behaviour and structural characterisations were carried out by UV-Vis spectroscopy, electron microscopy and by X-ray diffraction techniques. Primarily, for synthesis, a simple bioreduction approach generated amorphous nanoiron particles, which on annealing produced magnetic maghemite, γ-Fe2O3 type nanoparticles with sizes 100 to 1000 nm. Posteriorly, the bioreduction process also produces nanoiron+Au particles and can be used for multifunctional applications. As a model application, catalytic application of the as-prepared nanoiron and nanoiron+Au particles towards methylene blue, a thiazine dye degradation is investigated and found to be effective within 20 min. Langmuir-Hinshelwood kinetic model was exploited to know the degradation behaviour, and the model was found to be fit based on R2 values with the observed experimental data. We suggest that the formed highly stable nanoiron particles with in situ stabilisation offer benefits like consistency, environmental friendliness and suits well for large-scale applicability.
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蜜瓜叶提取物合成纳米铁及纳米铁+金颗粒降解亚甲基蓝
摘要本研究采用一锅法合成了纳米铁和纳米铁+Au颗粒。在相同的介质中分别制备了较小尺寸的非磁性纳米铁(~34 nm)和纳米铁(~34 nm) +Au颗粒(1 ~ 1.5µm)。通过紫外可见光谱、电子显微镜和x射线衍射技术对纳米颗粒的悬浮行为和结构进行了表征。首先,在合成方面,采用简单的生物还原法制备了无定形纳米铁颗粒,通过退火法制备了磁性磁赤铁矿、γ-Fe2O3型纳米颗粒,粒径为100 ~ 1000 nm。之后,生物还原过程还可以产生纳米铁+金颗粒,并可用于多功能应用。作为模型应用,研究了制备的纳米铁和纳米铁+Au颗粒对亚甲基蓝、噻嗪染料的催化降解,发现在20 min内有效。利用Langmuir-Hinshelwood动力学模型来了解降解行为,发现基于R2值的模型与观察到的实验数据拟合。我们认为,形成的具有原位稳定性的高稳定性纳米铁颗粒具有一致性、环保性和大规模适用性等优点。
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