具有酶活性的空心 CoZnSe@CN 纳米笼，用于智能手机平台和虚拟现实揭示的四环素测定。

Hollow CoZnSe@CN nanocage with enzymatic activity for determination of tetracycline using smartphone platforms and virtual reality revealing.

机构信息

College of Science, Sichuan Agricultural University, Xin Kang Road, Yucheng District, Ya'an, 625014, People's Republic of China.

School of Biological and Chemical Engineering, Panzhihua University, Panzhihua, 617000, People's Republic of China.

出版信息

Mikrochim Acta. 2024 Jan 6;191(1):79. doi: 10.1007/s00604-023-06159-2.

DOI:10.1007/s00604-023-06159-2

PMID:38183441

Abstract

Antibiotic residues in the environment pose a serious threat to ecosystems and human health. Therefore, it is important to develop sensitive and rapid in situ detection methods. In this work, the designed nanozymes, with excellent four enzyme activities, were proved to be constituted of unique hollow nanocage structures (CoZnSe@CN HCs). Based on the peroxidase-like enzymes, a portable colorimetric sensor was constructed for the on-site determination of tetracycline (TC) in real samples. The linear range of TC detection was 0.1-100 μM, and the detection limit was 0.02 μM. At the same time, colorimetric detection and smartphones have also been combined for on-site colorimetric detection of TC. In-depth exploration of the detection mechanism showed that TC could be bound with the material, inhibiting the production of oxidized 3,3',5,5'-tetramethylbenzidine. The sensor was also used for the detection of TC in environmental soil and water samples. This study can provide an intelligent detection method for environmental monitoring.

摘要

环境中的抗生素残留对生态系统和人类健康构成了严重威胁。因此，开发灵敏、快速的原位检测方法非常重要。在这项工作中，所设计的纳米酶具有优异的四种酶活性，被证明是由独特的空心纳米笼结构（CoZnSe@CN HCs）组成。基于过氧化物酶样酶，构建了一种便携式比色传感器，用于现场测定实际样品中的四环素（TC）。TC 的检测线性范围为 0.1-100 μM，检测限为 0.02 μM。同时，比色检测和智能手机也已结合用于现场比色检测 TC。对检测机制的深入探讨表明，TC 可以与该材料结合，抑制氧化 3,3',5,5'-四甲基联苯胺的产生。该传感器还用于检测环境土壤和水样中的 TC。本研究可为环境监测提供一种智能检测方法。

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具有酶活性的空心 CoZnSe@CN 纳米笼，用于智能手机平台和虚拟现实揭示的四环素测定。

Hollow CoZnSe@CN nanocage with enzymatic activity for determination of tetracycline using smartphone platforms and virtual reality revealing.

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