Improved Faradaic Quality of Betamethasone-clotrimazole Redox Profile on A Bentonite Modified Carbon

The redox characteristics of the betamethasone-clotrimazole (CB) matrix were studied using surface modified electrodes interfaced with cyclic voltammetry for data gathering in this article.

The betamethasone-clotrimazole matrix was used to modify the carbon graphite working electrode surface. The modifying matrix's redox characteristics are displayed on the changed electrode. On the electrode surface, the CB is found to be highly unstable and not entirely surface adhered. The data collected from anodic peak current and scan rate measurements confirms this.

Clotrimazole imidazole compounds are responsible for the redox peaks.

CB on a modified bentonite host matrix electrode produced a redox profile with improved faradaic purity.

Those in which the CB was combined with bentonite to create a composite CB's redox peaks were well characterised after using the combination as an electrode modification material.

The reduction of oxidative stress associated with the CB redox process appears to help P-aminophenol enhance the redox process.

The increased physical surface area of CB atop the bentonite matrix, rather than CB incorporation into the and layers in the montmorillonite, is responsible for its better redox characteristics.

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