Novel Zeolite Modified Carbon Paste Electrode for Differential Pulse Voltammetric Assay of Cyclopentolate hydrochloride

Abstract: Cyclopentolate (CLO) is an antimuscarinic compound with actions similar to atropine which induces both mydriasis and paralysis of the ciliary muscle. The present work describes the fabrication of novel carbon paste electrodes (CPE) incorporated with zeolite as a promising analytical protocol for sensitive voltammetric assay of cyclopentolate. Remarkable enhancement of the sensitivity towards CLO was achieved compared with the blank electrode. An irreversible oxidation process with the two-electron transfer was… Show more

“…Recent research has been devoted to integration of electrochemical sensors with various nanostructures to enhance the sensing performance such as their selectivity, sensitivity, and response time. Several trials were performed to incorporate different metallic oxide nanostructures within the electrochemical sensor matrix. − As a common metallic oxide nanostructure, copper oxide nanoparticles (CuONPs) were utilized as a proper electrode modifier for electrochemical sensing of many pharmaceutically active compounds. − Zeolitic nanostructures showed promising characteristics such as shape, pore size, and high cation exchange capacity; therefore, they were reported as a recommended modifier for various electrochemical sensors in determining many biologically and pharmaceutically active compounds. − …”

Novel Deliberately Sensitive and Selective Tetrahydrozoline Voltammetric Sensors Integrated with a Copper Oxide Nanoparticle/Zeolite Platform

“…Recent research has been devoted to integration of electrochemical sensors with various nanostructures to enhance the sensing performance such as their selectivity, sensitivity, and response time. Several trials were performed to incorporate different metallic oxide nanostructures within the electrochemical sensor matrix. − As a common metallic oxide nanostructure, copper oxide nanoparticles (CuONPs) were utilized as a proper electrode modifier for electrochemical sensing of many pharmaceutically active compounds. − Zeolitic nanostructures showed promising characteristics such as shape, pore size, and high cation exchange capacity; therefore, they were reported as a recommended modifier for various electrochemical sensors in determining many biologically and pharmaceutically active compounds. − …”

Novel Deliberately Sensitive and Selective Tetrahydrozoline Voltammetric Sensors Integrated with a Copper Oxide Nanoparticle/Zeolite Platform

Zeolite integrated carbon paste sensors for sensitive and selective differential pulse voltammetric determination of carprofen