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Boron-Nitrogen-Co-Doping Nanocarbons to Create Rich Electroactive Defects toward Simultaneous Sensing Hydroquinone and Catechol

Qianghai Rao, Fang Hu, Li‐Yong Gan, Chunxian Guo, Yuhang Liu, Chunmei Zhang, Chongjun Chen, Hong Bin Yang, Chang Ming Li

2021Electrochimica Acta20 citationsDOIOpen Access PDF

Abstract

Quantitatively simultaneous detection of hydroquinone (HQ) and catechol (CC) with low limit of detection (LOD) and wide detection range is of critical significance in water quality control but faces great challenges due to their isomer similarity and a large range of contamination concentrations. Herein, high density of boron atoms is introduced into nitrogen-doped nanocarbon (BNC) to realize simultaneous detection of HQ and CC with a large separation of peak potential (ΔEp) of 111 mV between oxidations of HQ and CC by differential pulse voltammetry. Besides, extremely low LODs of 33.3 and 16.3 nM for HQ and CC were achieved through amperometric I-t curve with wide linear ranges of 0.099 ∼ 43340 µM and 0.049 ∼ 5110 µM, respectively. The systematical investigation of the enhancement mechanism by spectroscopy and DFT calculations clearly reveal that the boron-nitrogen co-doping creates rich electroactive sites for high sensing performance toward HQ and CC, thereby shedding lights on the great effect of a unique nanostructure on electrocatalysis in sensing applications.

Topics & Concepts

HydroquinoneDetection limitCatecholElectrocatalystAmperometryDifferential pulse voltammetryBoronAnalytical Chemistry (journal)Materials scienceChemistryCyclic voltammetryNanotechnologyElectrochemistryElectrodePhysical chemistryOrganic chemistryChromatographyElectrochemical Analysis and ApplicationsElectrochemical sensors and biosensorsAdvanced biosensing and bioanalysis techniques
Boron-Nitrogen-Co-Doping Nanocarbons to Create Rich Electroactive Defects toward Simultaneous Sensing Hydroquinone and Catechol | Litcius