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Diamond and Diamond-Like Carbon: Next-Generation Electrodes for Electroanalysis

Seminar
Wednesday, 26.09.2018 10:00

Speakers: Prof. Greg M. Swain (Michigan State University, Department of Chemistry, USA)
Place: Velký Sál, Fyzikální ústav AV ČR, v. v. i., Na Slovance 1999/2, 182 21 Praha 8
Organisers: Department of Functional Materials
Carbon electrodes are routinely used in electrochemical detectors and sensors to quantify electroactive analytes in solution. By electroactive, one is referring to molecules that are easily oxidized or reduced at an electrode surface. Generally speaking, electrochemical measurements often involve application of a potential to an electrode and measuring the current that flows in response to the potential perturbation, which is reflective of the local analyte concentration. Carbon is one of the most abundant elements found on the planet and, from a materials perspective, is unique because of the microstructurally-distinct allotropes it forms. These range from single and polycrystalline diamond, to the stacked sheets of graphite, to the microstructurally-disordered glassy carbon, to nanotubes and fullerenes, and finally to the single sheet graphene. All of these carbon materials are used in electrochemical measurements as well as other technologies, in part, because of some common attributes: high mechanical strength, good thermal conductivity and stability, chemical inertness, high carrier mobility and good electrical conductivity, and rich surface chemistry. Two forms of carbon that generally perform well in electroanalytical measurements are boron-doped diamond and nitrogen-containing tetrahedral amorphous carbon (ta-C:N) thinfilm electrodes. I will review some of the basic material and electrochemical properties of these two electrode materials and highlight some examples of how the materials perform for the detection of environmentally-important analytes such as heavy metal ions and estrogenic metabolite. Analysis of the latter compounds was accomplished using FIA-EC and LC-EC.