Insight Into the Role of Ceria on OMS-2 and OL Materials for Catalytic Degradation of Toluene

Frontiers in environmental chemistry Pub Date : 2020-10-29 DOI:10.3389/fenvc.2020.599349

Lin Yue, Minghua Hu, Mingjiao Tian, Xu Liao, Zhihua Xu, Ling Shi, Chi He

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引用次数: 1

Abstract

Catalytic oxidation is one of the most efficient approaches for industrial volatile organic compounds (VOCs) elimination. MnOx-based catalysts have attracted much attention due to their remarkable low-temperature catalytic activity. Here, octahedral layered birnessite-type manganese oxide (OL-1) with layer spacing of 7 Å and cryptomelane type manganese oxide (OMS-2) with tunneled pore diameter of 4.6 Å× 4.6 Å were synthesized by a reflux method. Following this, Ce-doped OL-1 and OMS-2 were further prepared by an impregnation method with target to improve catalytic performance in toluene oxidation. Results reveal that the OMS-2 material exhibits the best catalytic activity with 90% of toluene decomposed at 224°C owing to the presence of a large quantity of active lattice oxygen species. Interestingly, the introduction of Ce leads to the formation of large amounts of acidic sites, which limit the oxidation process and enhance the yield of benzoic acid by-product. The findings in the present work are meaningful for deepening our understanding of the role of ceria on metal oxide catalysts and helping us to design effective catalysts for VOC destruction.

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铈在OMS-2和OL材料催化降解甲苯中的作用

催化氧化是消除工业挥发性有机化合物（VOCs）最有效的方法之一。MnOx基催化剂由于其显著的低温催化活性而备受关注。这里，通过回流法合成了层间距为7Å的八面体层状水镁石型氧化锰（OL-1）和隧道孔径为4.6Å×4.6Å的隐锰石型氧化镁（OMS-2）。随后，通过靶浸渍法进一步制备了Ce掺杂的OL-1和OMS-2，以提高其在甲苯氧化中的催化性能。结果表明，OMS-2材料表现出最佳的催化活性，由于存在大量的活性晶格氧物种，90%的甲苯在224°C下分解。有趣的是，Ce的引入导致大量酸性位点的形成，这限制了氧化过程并提高了苯甲酸副产物的产率。本工作的发现对于加深我们对二氧化铈在金属氧化物催化剂上的作用的理解，并帮助我们设计有效的VOC破坏催化剂具有重要意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Frontiers in environmental chemistry

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审稿时长

13 weeks