Self-assembled iridium(III) complex microspheres on the carbon paste electrode surface for signal enhanced amperometric determination of H2O2 in color cream developers

“…12 EPCs are still preferred for electrochemical applications compared to other electrodes as they allow a modication process that is fast and simple by adding different modiers. [13][14][15][16] The literature shows that methods that employ MIPs and carbon-based materials result in a low detection limit, good stability, repeatability and excellent selectivity. [17][18][19] Carbon black (CB) is a carbon-based nanomaterial that has also been widely used, due to its huge availability and elevated surface area.…”

“…12 EPCs are still preferred for electrochemical applications compared to other electrodes as they allow a modification process that is fast and simple by adding different modifiers. 13–16…”

An electrochemical sensor modified with a molecularly imprinted polymer and carbon black for 17-β-estradiol detection

“…12 EPCs are still preferred for electrochemical applications compared to other electrodes as they allow a modication process that is fast and simple by adding different modiers. [13][14][15][16] The literature shows that methods that employ MIPs and carbon-based materials result in a low detection limit, good stability, repeatability and excellent selectivity. [17][18][19] Carbon black (CB) is a carbon-based nanomaterial that has also been widely used, due to its huge availability and elevated surface area.…”

“…12 EPCs are still preferred for electrochemical applications compared to other electrodes as they allow a modification process that is fast and simple by adding different modifiers. 13–16…”

An electrochemical sensor modified with a molecularly imprinted polymer and carbon black for 17-β-estradiol detection

Facile immobilization of cholesterol oxidase on Pt,Ru–C nanocomposite and ionic liquid–modified carbon paste electrode for an efficient amperometric free cholesterol biosensing

In Situ Synthesized Gold-Conjugated Hemoglobin-Cu3 (PO4)2 Hybrid Nanopetals for Enhanced Electrochemical Detection of H2O2