Nanostructured Au-graphene modified electrode for electrosensing of chlorzoxazone and its biomedical applications

Nanostructured Au-graphene modified electrode for electrosensing of chlorzoxazone and its biomedical applications

The electrosensing of chlorzoxazone (CHZ) was studied for the first time at nanostructured Au/graphene modified glassy carbon electrode (AuNPs/Gr/GCE) employing different voltammetric techniques viz. cyclic, linear sweep and differential pulse voltammetries. The results indicated that the voltammetr...

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Bibliographic Details
Published in:Materials chemistry and physics Vol. 266; p. 124538
Main Authors: Meti, Manjunath D., Abbar, Jyothi C., Lin, Jialiang, Han, Qingguo, Zheng, Yuan, Wang, Yuhan, Huang, Jianzi, Xu, Xu, Hu, Zhangli, Xu, Hong
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 01-07-2021
Elsevier BV
Subjects:
Biomedical applications
Biomedical materials
Biosensor
Chlorzoxazone
Electrical measurement
Electrochemical oxidation
Electrodes
Environmental management
Glassy carbon
Glassy carbon modified electrode
Graphene
Nanostructure
Pharmaceutical formulation
Quality management
Reproducibility
Selectivity
Surface properties
Voltammetry
Pharmaceutical formulation
Biomedical applications
Glassy carbon modified electrode
Biosensor
Electrochemical oxidation
Chlorzoxazone
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Summary:The electrosensing of chlorzoxazone (CHZ) was studied for the first time at nanostructured Au/graphene modified glassy carbon electrode (AuNPs/Gr/GCE) employing different voltammetric techniques viz. cyclic, linear sweep and differential pulse voltammetries. The results indicated that the voltammetric response of CHZ was improved distinctly at the AuNPs/Gr/GCE electrode than that at bare GCE. In order to carry out the CHZ determination, the dependency of the response current on supporting electrolyte pH, sweep rate and CHZ concentration were inspected to optimize the investigational conditions. The surface characterizations of the Au/graphene modified and unmodified glassy carbon electrodes were carried out. The anodic peak showed a process of diffusion-control. The number of electrons transferred was calculated to be two. The determination of [CHZ] using the modified electrode was studied over the range of 1.0 × 10−7 M to 10.0 × 10−7 M which showed the LOD value to be 1.164 × 10−8 M. The study of excipients showed that the method owns selectivity. A differential pulse voltammetry which is fast and simple, showed a good accuracy and precision, for the purpose of determining the [CHZ] in biomedical applications like pharmaceutical formulation and also in pathological sample testing. In addition, this type of work can find its usage towards scientific purposes that involves electrical measurements, particularly in industrial quality management, environmental pollution management, as it involves simple sample preparation, appreciable repeatability, reproducibility and also high sensitivity. SEM characterization images of different modified and unmodified electrodes. A: Unmodified GCE B: Au-NPs/GCE C: Gr/GCE D: Au-NPs/Gr/GCE. [Display omitted] •Highly sensitive gold nanoparticles/graphene modified glassy carbon electrode (AuNPs/Gr/GCE) was successfully developed.•The anodic peak was characterized to be a diffusion-controlled process.•The developed electrode efficiently detected CHZ in both pharmaceutical tablet and a pathological sample, like urine.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2021.124538