Enzyme-like activity of cobalt-MOF nanosheets for hydrogen peroxide electrochemical sensing

过氧化氢 电化学 无机化学 化学 材料科学 电极 生物化学 物理化学
作者
Arismendy Portorreal-Bottier,Silvia Gutiérrez‐Tarriño,Juan José Calvente,Rafael Andreu,Emilio Roldán,Pascual Oña‐Burgos,José Luis Olloqui‐Sariego
出处
期刊:Sensors and Actuators B-chemical [Elsevier BV]
卷期号:368: 132129-132129 被引量:58
标识
DOI:10.1016/j.snb.2022.132129
摘要

Metal-organic frameworks (MOFs) are receiving increased attention as new functional nanomaterials for the development of electrochemical sensors.Herein, we develop an electrochemical platform for non-enzymatic hydrogen peroxide detection built with a composite of two-dimensional cobalt MOF nanosheets and Nafion (2D-Co-MOF@Nafion).The feasibility of the 2D-Co-MOF@Nafion composite as active material for high performance hydrogen peroxide sensor was investigated by using cyclic voltammetry and chronoamperometry.Its voltammetric response reveals an efficient charge transport through the MOF composite, and rapid electron exchange between the MOF and the electrode.Notably, these MOF nanosheets exhibit enzyme-like activity for the non-common catalytic oxidation of hydrogen peroxide, leading to an electrochemical sensor with rapid quantitative detection, outstanding sensitivity, selectivity, stability, and durability at the desirable neutral pH.In particular, for a cobalt metal loading of 1.2 nanomol, the sensor yields amperometric H2O2 detection with characteristic electrocatalytic parameters of = 5.7 mA cm -2 and = 13 mM.Moreover, linear ranges of up to either 1 mM or 10 mM are achieved, with sensitivities as high as 570 ± 5 A cm -2 mM -1 or 395 ± 10 A cm -2 mM -1 for the low and high concentration ranges, respectively.The particular coordination chemistry of the MOF consisting of a regular arrangement of multiple Co(II) redox metal sites connected by appropriate organic ligands can provide inherent enzyme-mimicking properties, thereby explaining the higher oxidase-like activity of the present MOF.This work raises the new idea of using two-dimensional cobalt-based MOFs as active nanozymes, offering exciting opportunities in the design of non-enzymatic electrochemical sensing devices.
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