MXene/碳纳米角/β-环糊精-金属有机骨架作为高性能电化学传感平台，用于灵敏检测多菌灵农药。

Mxene/carbon nanohorn/β-cyclodextrin-Metal-organic frameworks as high-performance electrochemical sensing platform for sensitive detection of carbendazim pesticide.

机构信息

Key Laboratory of Crop Physiology, Ecology and Genetic Breeding, Ministry of Education, Key Laboratory of Chemical Utilization of Plant Resources of Nanchang, College of Science, Jiangxi Agricultural University, Nanchang, 330045, PR China.

College of Chemistry and Chemical Engineering, Qufu Normal University, Qufu, Shandong 273165, PR China.

出版信息

J Hazard Mater. 2020 Sep 5;396:122776. doi: 10.1016/j.jhazmat.2020.122776. Epub 2020 Apr 19.

DOI:10.1016/j.jhazmat.2020.122776

PMID:32334288

Abstract

Pesticides play an important role in agricultural fields, but the pesticide residues pose strong hazardous to human health, thus designing sensitive and fast method for pesticides monitor is highly urgent. Herein, nanoarchitecture of Mxene/carbon nanohorns/β-cyclodextrin-Metal-organic frameworks (MXene/CNHs/β-CD-MOFs) was exploited as electrochemical sensing platform for carbendazim (CBZ) pesticide determination. β-CD-MOFs combined the properties of host-guest recognition of β-CD and porous structure, high porosity and pore volume of MOFs, enabling high adsorption capacity for CBZ. MXene/CNHs possessed large specific surface area, plenty of available active sites, high conductivity, which afforded more mass transport channels and enhances the mass transfer capacity and catalysis for CBZ. With the synergistic effect of MXene/CNHs and β-CD-MOFs, the MXene/CNHs/β-CD-MOFs electrode extended a wide linear range from 3.0 nM to 10.0 μM and a low limit of detection (LOD) of 1.0 nM (S/N = 3). Additionally, the prepared sensor also demonstrated high selectivity, reproducibility and long-term stability, and satisfactory applicability in tomato samples.

摘要

农药在农业领域发挥着重要作用，但农药残留对人体健康构成强烈危害，因此设计灵敏、快速的农药监测方法迫在眉睫。在此，我们构建了 MXene/碳纳米管/β-环糊精-金属有机骨架（MXene/CNHs/β-CD-MOFs）纳米结构作为电化学传感平台，用于检测多菌灵（CBZ）农药。β-CD-MOFs 结合了 β-CD 的主体客体识别性能和多孔结构、MOFs 的高孔隙率和孔体积的特点，使其对 CBZ 具有高吸附能力。MXene/CNHs 具有大的比表面积、丰富的可用活性位点、高导电性，为 CBZ 提供了更多的传质通道，并增强了其传质能力和催化性能。通过 MXene/CNHs 和 β-CD-MOFs 的协同作用，MXene/CNHs/β-CD-MOFs 电极从 3.0 nM 到 10.0 μM 呈现出宽的线性范围，检测限（LOD）低至 1.0 nM（S/N=3）。此外，该制备的传感器还表现出高选择性、重现性和长期稳定性，在番茄样品中具有令人满意的适用性。

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MXene/碳纳米角/β-环糊精-金属有机骨架作为高性能电化学传感平台，用于灵敏检测多菌灵农药。

Mxene/carbon nanohorn/β-cyclodextrin-Metal-organic frameworks as high-performance electrochemical sensing platform for sensitive detection of carbendazim pesticide.

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