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基于协同掺杂多种杂原子到海绵状 Fe/NPC 纳米酶中,用于检测半胱氨酸、酚半胱氨酸和酚的比色传感策略。

Colorimetric sensing strategy for detection of cysteine, phenol cysteine, and phenol based on synergistic doping of multiple heteroatoms into sponge-like Fe/NPC nanozymes.

机构信息

Department of Chemistry, Capital Normal University, Beijing, 100048, China.

出版信息

Anal Bioanal Chem. 2022 Jun;414(14):4217-4225. doi: 10.1007/s00216-022-04074-8. Epub 2022 Apr 25.

DOI:10.1007/s00216-022-04074-8
PMID:35462599
Abstract

Nanozymes have both the high catalytic activity of natural enzymes and the stability and economy of mimetic enzymes. Research on nanozymes is rapidly emerging, and the continuous development of highly catalytic active nanozymes is of far-reaching significance. This work reports heteroatomic nitrogen (N) and phosphorus (P) double-doped mesoporous carbon structures and metallic Fe coordination generated sponge-like nanozymes (Fe/NPCs) with good peroxidase activity. On this basis, we constructed a highly sensitive colorimetric sensor with cysteine and phenol as simulated analytes using Fe/NPCs nanozymes, and the response limits reached 53.6 nM and 5.4 nM, respectively. Besides, the method has high accuracy in the detection of cysteine and phenol at low concentrations in serum and tap water, which lays a foundation for application in the fields of environmental protection and biosensors.

摘要

纳米酶兼具天然酶的高效催化活性和模拟酶的稳定性与经济性。纳米酶的研究正在迅速兴起,不断开发具有高催化活性的纳米酶具有深远的意义。本工作报道了具有过氧化物酶活性的杂原子氮(N)和磷(P)双掺杂介孔碳结构和金属 Fe 配位生成的海绵状纳米酶(Fe/NPCs)。在此基础上,我们构建了一种以半胱氨酸和苯酚为模拟分析物的高灵敏度比色传感器,其响应限分别达到 53.6 nM 和 5.4 nM。此外,该方法在血清和自来水中低浓度半胱氨酸和苯酚的检测中具有较高的准确性,为其在环境保护和生物传感器领域的应用奠定了基础。

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