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Plasma-Assisted Fabrication of Molecularly Imprinted NiAl-LDH Layer on Ni Nanorod Arrays for Glyphosate Detection

Yuguo Zhao, Yong Yan, Chunyue Liu, Dongtang Zhang, Dong Wang, Adriana Ispas, Andreas Bund, Biao Du, Zhengdong Zhang, Peter Schaaf, Xiayan Wang

2022ACS Applied Materials & Interfaces21 citationsDOI

Abstract

An inorganic-framework molecularly imprinted NiAl layered double hydroxide (MI-NiAl-LDH) with specific template molecule (glyphosate pesticide, Glyp) recognition ability was prepared on Ni nanorod arrays (Ni NRAs) through electrodeposition followed by a low-temperature O2 plasma treatment. The freestanding Ni/MI-NiAl-LDH NRA electrode had highly enhanced sensitivity and selectivity. The electrocatalytic oxidation of Glyp was proposed to occur at Ni3+ centers in MI-NiAl-LDH, and the current response depended linearly on the Glyp concentration from 10.0 nmol/L to 1.0 μmol/L (R2 = 0.9906), with the limit of detection (LOD) being 3.1 nmol/L (S/N = 3). An exceptional discriminating capability with tolerance for other similar organophosphorus compounds was achieved. Molecular imprinting (N and P residues) affected the electronic structure of NiAl-LDH, triggering the formation of highly active NiOOH sites at relatively lower anodic potentials and substantially enhancing the electrocatalytic oxidation ability of the NiAl-LDH interface toward the C–N bonds in Glyp. In combination with the surface enrichment effect of MI-NiAl-LDH toward template molecules, the electrochemical oxidation signal intensity of Glyp increased significantly, with a greater peak separation from interfering molecules. These results challenge the common belief that the excellent performance of inorganic-framework molecularly imprinted interfaces arises from their specific adsorption of template molecules, providing new insight into the development of high-performance organic-pollutant-sensing electrodes.

Topics & Concepts

NialMaterials scienceNanorodLayered double hydroxidesMoleculeChemical engineeringChronoamperometryElectrodeHydroxideElectrochemistryNanotechnologyCyclic voltammetryMetallurgyOrganic chemistryPhysical chemistryChemistryIntermetallicAlloyEngineeringAnalytical chemistry methods developmentElectrochemical Analysis and ApplicationsElectrochemical sensors and biosensors