磷化物
催化作用
抗菌活性
碳纤维
材料科学
纳米技术
氧还原反应
化学
细菌
有机化学
物理化学
电化学
复合数
复合材料
生物
遗传学
电极
作者
Jiaxin Dong,Guanxiong Liu,Yu. V. Petrov,Yujie Feng,Dechang Jia,В. Е. Баулин,А. Yu. Tsivadze,Yu Zhou,Baoqiang Li
标识
DOI:10.1002/adhm.202402568
摘要
Abstract Iron phosphide/carbon (FeP/C) serving as electrocatalysts exhibit excellent activity in oxygen reduction reaction (ORR) process. H 2 O 2 catalyzed by peroxidase (POD) is similar to the formation of new electron transfer channels and the optimization of adsorption of oxygen‐containing intermediates or desorption of products in ORR process. However, it is still a challenge to discover FeP/C with enhanced POD‐like catalytic activity in the electrocatalytic database for biocatalysis. The discovery of FeP/carbon dots (FeP/CDs) nanozymes driven by electrocatalytic activity for enhanced POD‐like ability is demonstrated. FeP/CDs derived from CDs‐Fe 3+ chelates show enhanced POD‐like catalytic and antibacterial activity. FeP/CDs exhibit enhanced POD‐like activities with a specific activity of 31.1 U mg −1 that is double higher than that of FeP. The antibacterial ability of FeP/CDs nanozymes with enhanced POD‐like activity is 98.1%. The antibacterial rate of FeP/CDs nanozymes (250 µg mL −1 ) increased by 5%, 15%, and 36% compared with FeP, Fe 2 O 3 /CDs, and Cu 3 P/CDs nanozymes, respectively. FeP/CDs nanozymes will attract more efforts to discover or screen transition metal phosphide/C nanozymes with enhanced POD‐like catalytic activity for biocatalysis in the electrocatalytic database.
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