Abstract
The search for new electrode materials has become one of the goals of modern electrochemistry. Obtaining electrodes with optimal properties gives a product with a wide application potential, both in analytics and various industries. The aim of this study was to select, from among the presented electrode materials (carbon and oxide), the one whose parameters will be optimal in the context of using them to create sensors. Electrochemical impedance spectroscopy and cyclic voltammetry techniques were used to determine the electrochemical properties of the materials. On the other hand, properties such as hydrophilicity/hydrophobicity and their topological structure were determined using contact angle measurements and confocal microscopy, respectively. Based on the research carried out on a wide group of electrode materials, it was found that transparent conductive oxides of the FTO (fluorine doped tin oxide) type exhibit optimal electrochemical parameters and offer great modification possibilities. These electrodes are characterized by a wide range of work and high chemical stability. In addition, the presence of a transparent oxide layer allows for the preservation of valuable optoelectronic properties. An important feature is also the high sensitivity of these electrodes compared to other tested materials. The combination of these properties made FTO electrodes selected for further research.
Highlights
Accepted: 17 August 2021An important aspect determining the application potential of new electrodes is to know their electrochemical and surface properties
Electrochemical measurements were made in a standard three-electrode system consisting of a working electrode (GC, Si/carbon nanowalls (CNWs), Si/boron doped nanocrystalline diamond (B-NCD), glass/B-NCD, indium tin oxide (ITO), and fluorine doped tin oxide (FTO)), a reference electrode (silver wire coated with a layer of silver chloride (Ag/AgCl), immersed in a saturated solution of potassium chloride (0.1 M KCl)) and anti-electrodes
Searching for new materials that could form the platform for future sensors, a number of conductive materials that differed in both chemical and surface structure were investigated
Summary
An important aspect determining the application potential of new electrodes is to know their electrochemical and surface properties. The new electrode material is expected to have high electrical conductivity, fast electron transfer for a wide range of redox systems, as well as structural and electrochemical stability over a wide range of potentials. An additional advantage of an ideal electrode is its simplicity and low production cost. Meeting these expectations is a guarantee of using a given electrode material as a modification platform in further electroanalytical tests. The need to quantify various chemical compounds in environmental, medical, or industrial analysis motivates scientists to search for new electrode materials with welldefined electrochemical properties. We apply chemically defined layers of inorganic oxides and carbon materials with various electrical properties to the surface of the starting material
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