Carbon Fiber Electrode, Dia 10 um, Length 100 um

$651.00
Prices valid in USA, Canada, and PR only.
Order code
CFN10-100
Prices valid in USA, Canada, and PR only.

Electrochemical detection of oxidizable compounds

Carbon fiber microelectrodes have been used in both the detection of oxidizable compounds (Gonon, et al., 1978; Cahill and Wightman, 1995) and extracellular single-unit recording (Armstrong-James and Millar, 1979). WPI's ultra-sensitive and low-noise carbon fiber (CF) electrodes can be applied, with our MicroC Potentiostat or similar instruments, in the electrochemical detection of catecholamines (epinephrine, norepinephrine and dopamine), indolamines (serotonin, 5-HT or melatonin), Fe (II) and other oxidizable compounds.

Prices valid in USA, Canada, and PR only.

Features

  • Diameter: 10 um
  • Length: 100 um
  • Pack of 5
  • Ultra-sensitive and low noise
  • Nafion-coated
  • Built to order. Please allow up to four weeks manufacturing time.

microcconccurve.jpg

Fig. 1-Excellent linearity in response of carbon fiber electrode (CF30-500) to dopamine recorded on a MicroC. Courtesy: Drs. D Yeomans and X.-T. Wang, University of Illinis at Chicago.

Applications

CF electrodes (diameter of 10 or 30 um) respond with an excellent linearity to the oxidizable compounds and can detect the compounds as low as 0.2 nM. The shorter (25-100 um) CF electrodes are suitable for in vivo amperometric and voltammetric measurements. When used with the MicroC Potentiostat, these CF electrodes can be activated and renewed in sensitivity for multiple use. The selective detection of catecholamines can be achieved with our Nafion-coated CF electrodes. For selective detection of 5-HT, please contact WPI for more information.

microcfig2.jpg
Fig. 2-Extracellular recording using a carbon electrode in CA1 region of the hippocampus in an anesthetized rat shows ultra-low noise ( ≤5μV). Courtesy: Dr. Carolyn Harley of Memorial University, Newfoundland, Canada.

More Information
SKU CFN10-100

L. Yavich, P. Jkl, H.Tanila "Noradrenaline overflow in mouse dentate gyrus following locus coeruleus and natural stimulation: real-time monitoring by in vivo voltammetry" J of Neurochemistry 95. 2005: 641-650

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