煅烧
面(心理学)
交货地点
棒
材料科学
催化作用
分布(数学)
纳米技术
化学工程
化学
生物化学
数学
生物
工程类
心理学
社会心理学
人格
五大性格特征
医学
数学分析
替代医学
病理
农学
作者
Tianqi Cheng,Xinyu Wu,Yuwei Qiu,Bo Yuan,Chao Zhao,Jian Lin Chen,Yung‐Kang Peng
出处
期刊:Small
[Wiley]
日期:2024-04-15
卷期号:20 (34)
被引量:16
标识
DOI:10.1002/smll.202401032
摘要
Abstract CeO 2 , particularly in the shape of rod, has recently gained considerable attention for its ability to mimic peroxidase (POD) and haloperoxidase (HPO). However, this multi‐enzyme activities unavoidably compete for H 2 O 2 affecting its performance in relevant applications. The lack of consensus on facet distribution in rod‐shaped CeO 2 further complicates the establishment of structure‐activity correlations, presenting challenges for progress in the field. In this study, the HPO‐like activity of rod‐shaped CeO 2 is successfully enhanced while maintaining its POD‐like activity through a facile post‐calcination method. By studying the spatial distribution of these two activities and their exclusive H 2 O 2 activation pathways on CeO 2 surfaces, this study finds that the increased HPO‐like activity originated from the newly exposed (111) surface at the tip of the shortened rods after calcination, while the unchanged POD‐like activity is attributed to the retained (110) surface in their lateral area. These findings not only address facet distribution discrepancies commonly reported in the literature for rod‐shaped CeO 2 but also offer a simple approach to enhance its antibacterial performance. This work is expected to provide atomic insights into catalytic correlations and guide the design of nanozymes with improved activity and reaction specificity.
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