一种用于合成具有优异吸附性能的氧化镁纳米颗粒的固态化学方法。

A solid-state chemical method for synthesizing MgO nanoparticles with superior adsorption properties.

作者信息

Zhang Hongyu, Hu Jindou, Xie Jing, Wang Shiqiang, Cao Yali

机构信息

Key Laboratory of Energy Materials Chemistry, Ministry of Education, Key Laboratory of Advanced Functional Materials, Autonomous Region, Institute of Applied Chemistry, Xinjiang University Urumqi 830046 Xinjiang P. R. China

出版信息

RSC Adv. 2019 Jan 15;9(4):2011-2017. doi: 10.1039/c8ra09199d. eCollection 2019 Jan 14.

DOI:10.1039/c8ra09199d

PMID:35516106

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9059707/

Abstract

As a traditional and effective adsorbent, MgO is a low-cost, eco-friendly, nontoxic, and economical material for wastewater treatment. However, multistep processing and the use of organic agents result in high costs and lead to environmental pollution, strongly inhibiting the practical application of MgO. Herein, a simple solid-state chemical route has been used to prepare small-sized MgO nanoparticles with a large specific surface area of 213 m g without using liquid solvents, template agents, or surfactants. This facile method is a green strategy that is suitable for large-scale production, avoiding complex preparation processes and serious environmental pollution. The obtained small-sized MgO nanoparticles showed a superior adsorption capacity of 2375 mg g towards Congo red, originating from the large specific surface area and surface features (hydrogen bonds and electrostatic interactions). The adsorption behavior obeyed a pseudo-second-order rate equation and the Langmuir isotherm adsorption model. This study provides a route for the synthesis of oxides with large specific surface areas and obtained an adsorbent with superior adsorption capacity.

摘要

作为一种传统且有效的吸附剂，氧化镁是一种用于废水处理的低成本、环保、无毒且经济的材料。然而，多步处理和有机试剂的使用导致成本高昂并造成环境污染，这严重阻碍了氧化镁的实际应用。在此，已采用一种简单的固态化学路线来制备具有213 m²/g大比表面积的小尺寸氧化镁纳米颗粒，且未使用液体溶剂、模板剂或表面活性剂。这种简便方法是一种绿色策略，适用于大规模生产，避免了复杂的制备过程和严重的环境污染。所获得的小尺寸氧化镁纳米颗粒对刚果红显示出2375 mg/g的优异吸附容量，这源于其大比表面积和表面特性（氢键和静电相互作用）。吸附行为符合准二级速率方程和朗缪尔等温吸附模型。本研究提供了一条合成具有大比表面积氧化物的途径，并获得了具有优异吸附容量的吸附剂。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2516/9059707/65440c9d89c8/c8ra09199d-f1.jpg

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一种用于合成具有优异吸附性能的氧化镁纳米颗粒的固态化学方法。

A solid-state chemical method for synthesizing MgO nanoparticles with superior adsorption properties.

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