Modulating the Hydrophilic‐Hydrophobic Microenvironment of MOF‐Stabilized Pt Nanozymes: the Role of H2O in the Peroxidase‐Like Catalyzed Reaction

催化作用 吸附 分子 材料科学 溶剂 疏水效应 协同催化 纳米技术 化学工程 组合化学 化学 有机化学 工程类
作者
Bingqing Shen,Qian Wu,Yanguo Guo,Jie Qin,Hailong Chen,Yingguo Yang,Zhenjiang Liu,Longhua Li,Weibin Li,Chengzhou Zhu
出处
期刊:Advanced Functional Materials [Wiley]
被引量:5
标识
DOI:10.1002/adfm.202415854
摘要

Abstract Hydrophilicity‐hydrophobicity modulation of active sites provides a promising strategy for enhancing catalytic performance. Current researches focus on the influence of substrate molecules, however, the role of H 2 O molecules is often overlooked in nanozyme‐catalyzed reactions. Herein, bioinspired Pt@ZIF‐R (R = ‐90, ‐8, ‐8@TMS, where TMS is tetraethoxysilane) nanozymes are designed as model catalysts, with Pt nanoparticles as active centers and metal organic‐framework nanocavities as hydrophilic‐hydrophobic binding pockets, revealing the critical role of H 2 O in the peroxidase‐like catalytic process of H 2 O 2 decomposition. A positive correlation between catalytic activity and hydrophobicity is observed, and strong hydrophobic Pt@ZIF‐8@TMS nanozyme exhibits the best catalytic performance. Theoretical calculations indicate that as hydrophobicity increases, solvent H 2 O reduces the competitive adsorption with H 2 O 2 and decreases the energy barrier of the rate‐determining step (2*O→*O 2 ) simultaneously. In addition, the desorption of the product H 2 O is thermodynamically favorable with increasing hydrophobicity. Importantly, Pt@ZIF‐8@TMS nanozyme is successfully used to develop a colorimetric biosensor for the detection of organophosphorus pesticides, with a detection limit as low as 0.7 ng mL −1 , which is superior to numerous existing methods. This work provides fundamental insights into the function of hydrophobicity in boosting catalytic activity, which may offer guidance for the development of efficient nanozymes.
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