一种具有级联酶模拟活性的前所未有的FeMo@Ce-Uio-66纳米复合材料作为比色传感平台。

An Unprecedented FeMo @Ce-Uio-66 Nanocomposite with Cascade Enzyme-Mimic Activity as Colorimetric Sensing Platform.

作者信息

Tong Zhibo, Sha Jingquan, Liu Dingzhou, Xu Mingqi

机构信息

School of Chemistry, Chemical Engineering and Materials, Jining University, 273155, Qufu, Shandong, China.

School of Materials Science and Engineering, Jiamusi University, 154007, Jiamusi, Heilongjiang, China.

出版信息

Chemistry. 2022 Apr 19;28(22):e202104213. doi: 10.1002/chem.202104213. Epub 2022 Mar 19.

DOI:10.1002/chem.202104213

PMID:35212424

Abstract

Introducing the idea of integrated design and cascade activity into nanozyme, the novel integrated nanozymes (INAzymes), FeMo @Ce-Uio-66 (FC-66(n)), were designed and synthesized by encapsulating iron-based polyoxometalates (FeMo ) into the ceria-based metal-organic framework (Ce-Uio-66). Due to the oxygen-driven reversible Ce /Ce couple sites, the "Fenton-like" effect by iron centers, the "nanoscale proximity" effects by nanocages, and their synergistic effects, FC-66(n) as INAzymes exhibit elegant cascade enzyme-mimic activities (oxidase-, peroxidase-, and Fenton-like activity), which realizes INAzyme activities based on polyoxometalates based metal-organic framework (POMOFs). By employing dopamine (DA) detection as a model reaction, a high-efficient fluorescent "turning-on-enhanced" platform under near neutral conditions was established.

摘要

将集成设计和级联活性的概念引入纳米酶中，通过将铁基金属多氧酸盐（FeMo）封装到基于氧化铈的金属有机框架（Ce-Uio-66）中，设计并合成了新型集成纳米酶（INAzymes），即FeMo@Ce-Uio-66（FC-66(n)）。由于氧驱动的可逆Ce³⁺/Ce⁴⁺偶合位点、铁中心的“类芬顿”效应、纳米笼的“纳米级邻近”效应及其协同效应，FC-66(n)作为INAzymes表现出出色的级联酶模拟活性（氧化酶、过氧化物酶和类芬顿活性），这实现了基于金属有机框架多金属氧酸盐（POMOFs）的INAzyme活性。通过将多巴胺（DA）检测作为模型反应，在近中性条件下建立了一个高效的荧光“开启增强”平台。

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一种具有级联酶模拟活性的前所未有的FeMo@Ce-Uio-66纳米复合材料作为比色传感平台。

An Unprecedented FeMo @Ce-Uio-66 Nanocomposite with Cascade Enzyme-Mimic Activity as Colorimetric Sensing Platform.

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