Issue 27, 2023, Issue in Progress

Balancing “on” and “off” response of hydroxyl groups to a nanozyme-catalyzing system for the construction of an ultra-sensitive and selective “signal-on” detection platform for dopamine

Abstract

Targeting the functional groups present in analytes by nanozyme-catalyzed systems is a promising strategy to construct sensitive and selective platforms for the sensing of specific analytes. Herein, various groups (–COOH, –CHO, –OH, and –NH2) on benzene were introduced in an Fe-based nanozyme system with MoS2–MIL-101(Fe) as the model peroxidase nanozyme, H2O2 as the oxidizing agent, and TMB as the chromogenic substrate, and the effects of these groups at both a low concentration and high concentration were further investigated. It was found that the hydroxyl group-based substance catechol showed an “on” effect at a low concentration to increase the catalytic rate and enhance the absorbance signal, whereas an “off” effect at a high concentration with a decreased absorbance signal. Based on these results, the “on” mode and “off” mode for the biological molecule dopamine, a type of catechol derivative, were proposed. In the control system, MoS2–MIL-101(Fe) catalyzed the decomposition of H2O2 to produce ROS, which further oxidized TMB. In the “on” mode, the hydroxyl groups of dopamine could combine with the Fe(III) site of the nanozyme to lower its oxidation state, resulting in higher catalytic activity. In the “off” mode, the excess dopamine could consume ROS, which inhibited the catalytic process. Under the optimal conditions, by balancing the “on” and “off” modes, the “on” mode for the detection of dopamine was found to have better sensitivity and selectivity. The LOD was as low as 0.5 nM. This detection platform was successfully applied for the detection of dopamine in human serum with satisfactory recovery. Our results can pave the way for the design of nanozyme sensing systems with sensitivity and selectivity.

Graphical abstract: Balancing “on” and “off” response of hydroxyl groups to a nanozyme-catalyzing system for the construction of an ultra-sensitive and selective “signal-on” detection platform for dopamine

Supplementary files

Article information

Article type
Paper
Submitted
04 May 2023
Accepted
30 May 2023
First published
19 Jun 2023
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2023,13, 18443-18449

Balancing “on” and “off” response of hydroxyl groups to a nanozyme-catalyzing system for the construction of an ultra-sensitive and selective “signal-on” detection platform for dopamine

H. Lan, G. Li, G. Chen, M. Ding, S. Xiao, J. Xiang, X. Duan, H. Cao, W. Shi and W. Dong, RSC Adv., 2023, 13, 18443 DOI: 10.1039/D3RA02946H

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