Voltammetry at carbon nanofiber electrodes

“…The interfacial capacitance from the voltammetric responses is 0.64 mF ¥ cm À2 for the MWNTs electrode, which is much higher than that of the glassy carbon electrode or the bare Ta substrate electrode. This result implies that carbon nanotubes exhibit a very high specific capacitance [39] and can be used as electrochemical devices.…”

Selective Voltammetric Detection of Uric Acid in the Presence of Ascorbic Acid at Well‐Aligned Carbon Nanotube Electrode

“…The interfacial capacitance from the voltammetric responses is 0.64 mF ¥ cm À2 for the MWNTs electrode, which is much higher than that of the glassy carbon electrode or the bare Ta substrate electrode. This result implies that carbon nanotubes exhibit a very high specific capacitance [39] and can be used as electrochemical devices.…”

Selective Voltammetric Detection of Uric Acid in the Presence of Ascorbic Acid at Well‐Aligned Carbon Nanotube Electrode

“…This specific capacitance is consistent with that observed for other types of nano-carbon materials. 23 …”

Carbon nanoparticle surface functionalisation: converting negatively charged sulfonate to positively charged sulfonamide

“…It is of interest to explore the properties of carbon nanocomposite electrodes to see if they might exhibit new properties, due to the high edge/surface area ratio of such materials. Marken et al, 2001 have evaluated CNFs (obtained by ambient pressure CVD method) as novel electrode materials for electrochemical applications (porous, pressed onto a glassycarbon substrate and non-porous, embedded in a solid paraffin matrix). They exhibit low BET surface areas and high electrochemical capacitances due to the fact that the spaces between the fibers allow the penetration of electrolyte solution.…”

Electrochemical and Adsorption Properties of Catalytically Formed Carbon Nanofibers