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基于氮掺杂中空介孔碳球与聚3,4-乙撑二氧噻吩的分子印迹电化学传感器用于氯丙嗪的选择性和超灵敏检测。

Molecularly imprinted electrochemical sensor based on nitrogen-doped hollow mesoporous carbon spheres with PEDOT for selective and ultrasensitive detection of chlorpromazine.

作者信息

Zhou Yanqiang, Liu Jiachang, Abdurexit Abdukeyum, Jamal Ruxangul, Abdiryim Tursun, Li Jianmin, Yang Hongtao, Zhang Guoliang, Su Erman, Chen Jinglei, Zhang Wenjing

机构信息

State Key Laboratory of Chemistry and Utilization of Carbon Based Energy Resources, College of Chemistry, Xinjiang University, Urumqi, 830017, Xinjiang, PR China.

State Key Laboratory of Chemistry and Utilization of Carbon Based Energy Resources, College of Chemical Engineering Technology, Xinjiang University, Urumqi, 830017, Xinjiang, PR China.

出版信息

Biosens Bioelectron. 2025 Jun 17;287:117708. doi: 10.1016/j.bios.2025.117708.

DOI:10.1016/j.bios.2025.117708
PMID:40532432
Abstract

Molecularly imprinted polymer-based electrochemical sensors (MIP/ECS) can achieve efficient detection of trace pollutants, holding broad application prospects in food safety and environmental monitoring. However, MIP/ECS suffers from weak binding forces at imprinted sites and slow electron transfer rates, which severely limit the selectivity and sensitivity of MIP/ECS. In this study, the synergistic effect of nitrogen-doped hollow mesoporous carbon spheres (N-HCS), polydopamine (PDA) and poly(3,4-ethylenedioxythiophene) (PEDOT) was utilized in the innovative construction of MIP/ECS with excellent selectivity and electrocatalytic activity for the ultrasensitive detection of chlorpromazine. Systematic experimental studies have confirmed that N-HCS provided a better surface area and tunable mesoporous structure for the rapid transmission of electrons, and the construction of imprinted network. PDA and PEDOT not only construct an imprinted network capable of highly selectively recognizing of chlorpromazine, but also form a donor-acceptor electron system that promotes electron transfer. Consequently, the developed sensor has achieved a lower limit of detection (0.18 nM), a wider detection range (0.0005-85 μM), better stability, and satisfactory practicability in the detection of chlorpromazine. This research provides a new strategy for developing advanced MIP/ECS to pollutant quantification monitoring.

摘要

基于分子印迹聚合物的电化学传感器(MIP/ECS)能够实现对痕量污染物的高效检测,在食品安全和环境监测领域具有广阔的应用前景。然而,MIP/ECS存在印迹位点结合力弱和电子转移速率慢的问题,这严重限制了MIP/ECS的选择性和灵敏度。在本研究中,利用氮掺杂空心介孔碳球(N-HCS)、聚多巴胺(PDA)和聚(3,4-乙撑二氧噻吩)(PEDOT)的协同效应,创新性地构建了对氯丙嗪具有优异选择性和电催化活性的MIP/ECS用于超灵敏检测。系统的实验研究证实,N-HCS为电子的快速传输和印迹网络的构建提供了更好的表面积和可调的介孔结构。PDA和PEDOT不仅构建了能够高度选择性识别氯丙嗪的印迹网络,还形成了促进电子转移的供体-受体电子体系。因此,所开发的传感器在氯丙嗪检测中实现了更低的检测限(0.18 nM)、更宽的检测范围(0.0005-85 μM)、更好的稳定性和令人满意的实用性。本研究为开发用于污染物定量监测的先进MIP/ECS提供了一种新策略。

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