Zirconia nanoparticles/carbon quantum dots modified carbon paste electrode as electrochemical sensor for determination of antiepileptic drug eslicarbazepine acetate in bulk and pharmaceutical dosage form

•New electrochemical method for determination of eslicarbazepine in tablet dosage form.•Simple carbon paste electrode modified with zirconia nanoparticles and carbon quantum dots synthesized from banana peels was used.•The proposed electroanalytical method is based on direct anodic oxidation in slig...

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Bibliographic Details
Published in:Measurement : journal of the International Measurement Confederation 2024-10, Vol.238, p.115400, Article 115400
Main Authors: Azab, Marwa M., Rizk, Mohamed, Abdel Ghany, Nabil A., Mohamed, Omaima M., Shaaban Farag, Amir
Format: Article
Language:English
Subjects:
Carbon paste electrode
Carbon quantum dots
Differential pulse voltammetry
Drug analysis
Eslicarbazepine
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Summary:•New electrochemical method for determination of eslicarbazepine in tablet dosage form.•Simple carbon paste electrode modified with zirconia nanoparticles and carbon quantum dots synthesized from banana peels was used.•The proposed electroanalytical method is based on direct anodic oxidation in slightly acidic aqueous medium using differential pulse voltammetric technique.•The developed method is fully comparable with standard RP-HPLC method with simpler, cheaper and eco-friendly advantages.•Comprehensive greenness profile of the presented method was evaluated by ComplexGAPI & Analytical Eco-Scale metrics. A new, sensitive and selective electrochemical method has been developed for determination of the antiepileptic prodrug eslicarbazepine acetate (ESL) that is used for the treatment of partial-onset seizures in adults with epilepsy. It belongs to the class of sodium channel blockers called dibenzoazepine family. A novel modified zirconia nanoparticles carbon paste nanocomposite, carbon dots sensor prepared from banana peels by solvothermal method has been fabricated. The voltammetric method is based on the direct anodic oxidation of ESL at the electrode surface using differential pulse voltammetry. Under the optimum experimental conditions, ESL exhibited a linear relationship in the range of 3.04 × 10-8 to 9.66 × 10-5 M with a lower detection limit of 7.57 × 10-9 M and quantification limit of 2.29 × 10-8 M. The proposed method was validated according to ICH guidelines and was applied for estimating ESL in raw material showing high accuracy and precision with successful application on tablet dosage form.
ISSN:0263-2241
DOI:10.1016/j.measurement.2024.115400