Bimetallic MOFs-derived four-in-one CeCuOx/C nanozyme and its application for colorimetric detection of cysteine based on oxidase mimics

IF 4.1 Q1 CHEMISTRY, ANALYTICAL
Wen-Xuan Jia, Ming-Ming Tao, Xin-Yu Wang, Yan-Feng Huang, Ying Li
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Abstract

To address the limitations of natural enzymes, more and more artificial enzymes have been developed. As the most appropriate candidate, metal organic frameworks (MOFs) and MOFs-based derivatives have generated extensive interest due to their remarkable properties and potential applications in enzymes mimicry. In this work, Ce/Cu mixed metal oxides-carbon composite (CeCuOx/C) was synthesized through a simple oxidation method with bimetallic MOFs CeCu-BTC as precursors. It was found that the prepared CeCuOx/C possess four different enzyme-like activities, including peroxidase, oxidase, laccase and phosphatase mimetic activities. The kinetics parameters and potential influence factors of enzyme-like activities were studied and CeCuOx/C exhibited high catalytic activity, excellent stability, and reusability. Additionally, a cysteine detecting method was established via oxidase-like activity of CeCuOx/C. The linear response to the cysteine was in the range of 50 to 900 μM, and the limit of detection was 3.24 μM. The spiking recoveries were in the range 93.5–100.2 % for cysteine in artificial human urine samples and the relative standard deviations were found within the ranges of 1.2–2.9 %. This work presents a new approach for the design of multi-enzyme mimics and develops the potential of CeCuOx/C for biological sensing.

Abstract Image

Abstract Image

双金属 MOFs 衍生的四合一 CeCuOx/C 纳米酶及其在基于氧化酶模拟物的半胱氨酸比色检测中的应用
为了解决天然酶的局限性,越来越多的人工酶被开发出来。作为最合适的候选材料,金属有机框架(MOFs)和基于MOFs的衍生物因其卓越的性能和在酶模拟中的潜在应用而引起了广泛的兴趣。本研究以双金属 MOFs CeCu-BTC 为前驱体,通过简单的氧化方法合成了 Ce/Cu 混合金属氧化物-碳复合材料(CeCuOx/C)。研究发现,所制备的 CeCuOx/C 具有四种不同的类酶活性,包括过氧化物酶、氧化酶、漆酶和磷酸酶模拟活性。研究了类酶活性的动力学参数和潜在影响因素,结果表明 CeCuOx/C 具有催化活性高、稳定性好和可重复使用等特点。此外,还通过 CeCuOx/C 的类氧化酶活性建立了一种半胱氨酸检测方法。半胱氨酸的线性范围为 50 至 900 μM,检出限为 3.24 μM。人工人体尿样中半胱氨酸的加标回收率为 93.5%-100.2%,相对标准偏差为 1.2%-2.9%。这项工作为多酶模拟物的设计提供了一种新方法,并开发了 CeCuOx/C 在生物传感方面的潜力。
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来源期刊
Talanta Open
Talanta Open Chemistry-Analytical Chemistry
CiteScore
5.20
自引率
0.00%
发文量
86
审稿时长
49 days
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