Manufacture and evaluation of cup-stacked carbon nanofiber-modified screen printed electrodes as electrochemical tools

Abstract

Cup-stacked carbon nanofibers (CSCNFs) are carbon nanofilaments comprising continuous helix-rolled graphene layers. This interesting and cheap carbon nanomaterial presents a lot of possibilities for electrochemical and electroanalytical applications, although it still remains almost unknown in both fields. In this work, studies about CSCNFs for the modification of screen-printed carbon electrodes (SPEs) are presented and compared against multi-walled carbon nanotubes (MWCNTs). Acid oxidized CSCNFs were dispersed in water and used to modify SPEs. The effect of the CSCNFs on important electrochemical parameters, such as capacitances, faradic currents and heterogeneous electron transfer rate constants, was studied and compared with data obtained by the modification of SPEs with acid oxidized MWCNTs. Several common benchmark redox systems were tested (ferricyanide, hydroquinone, dopamine and 4-aminophenol) and electroanalytical properties were optimized for the determination of 4-aminophenol by cyclic voltammetry.