Facet对δ-MnO2稳定高效催化臭氧分解氧空位性质的影响

IF 11.3 1区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL

环境科学与技术 Pub Date : 2025-09-23 DOI:10.1021/acs.est.5c07382

Zhongyu Wang,Mingjia Zhang,Ting Li,Yuyan He,Shule Zhang,Qin Zhong

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引用次数: 0

摘要

锰氧化物（MnOx）是臭氧（O3）分解的经典催化材料，而过氧化物中间体（*O2）和水（H2O）的积累会显著降低其性能。在本研究中，制备了δ-MnO2暴露（111）面来调节氧空位（Vo）的性质和含量。实验和理论结果表明，（111）面δ-MnO2比（001）面δ-MnO2具有更低的Vo含量。值得注意的是，尽管Vo含量不足，但快速的*O2解吸使催化剂具有优异的性能和优异的稳定性。此外，H2O与O3的动态吸附和反应显著提高了催化剂的稳定性和耐水性。优选的Mn-0.2在恶劣条件下（WHSV = 900 L·g-1·h-1，相对湿度35%）反应24 h后仍能保持95%的O3转化率。这项工作为减轻环境催化反应中速率决定步骤的策略提供并验证了新的见解。

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Effect of Facet on Oxygen Vacancy Properties in δ-MnO2 for Stable and Efficient Catalytic Ozone Decomposition.

Manganese oxides (MnOx) serve as a classical catalytic material for ozone (O3) decomposition, while the accumulation of the peroxide intermediate (*O2) and water (H2O) significantly degrades its performance. In this study, the exposed (111) facet of δ-MnO2 was prepared to modulate the properties and content of oxygen vacancies (Vo). Experimental and theoretical results indicate that δ-MnO2 with the (111) facet possessed a lower Vo content compared to the thermodynamically stable (001) facet. Remarkably, despite the deficiency in Vo content, the rapid *O2 desorption enables the catalyst to achieve superior performance, along with excellent stability. Additionally, the dynamic adsorption and reaction of H2O with O3 significantly enhance the stability and water tolerance of the catalyst. The preferred Mn-0.2 maintained 95% O3 conversion after 24 h of reaction under harsh conditions (WHSV = 900 L·g-1·h-1 and 35% RH). This work provides and validates new insights into strategies for mitigating the rate-determining step in an environmental catalytic reaction.

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来源期刊

环境科学与技术环境科学-工程：环境

CiteScore

17.50

自引率

9.60%

发文量

12359

审稿时长

2.8 months

期刊介绍： Environmental Science & Technology (ES&T) is a co-sponsored academic and technical magazine by the Hubei Provincial Environmental Protection Bureau and the Hubei Provincial Academy of Environmental Sciences. Environmental Science & Technology (ES&T) holds the status of Chinese core journals, scientific papers source journals of China, Chinese Science Citation Database source journals, and Chinese Academic Journal Comprehensive Evaluation Database source journals. This publication focuses on the academic field of environmental protection, featuring articles related to environmental protection and technical advancements.