The electrochemical reduction of
highly oxidized unsupported graphene oxide nanosheets and its platinum
electrodeposition was done by the rotating disk slurry electrode technique.
Avoiding the use of a solid electrode, graphene oxide was electrochemically
reduced in a slurry solution with a scalable process without the use
of a reducing agent. Graphene oxide nanosheets were synthesized from
carbon platelet nanofibers to obtain highly hydrophilic layers of
less than 250 nm in width. The graphene oxide and electrochemically
reduced graphene oxide/Pt (erGOx/Pt) hybrid materials were characterized
through different spectroscopy and microscopy techniques. Pt nanoparticles
with 100 facets, clusters, and atoms at erGOx were identified by high
resolution transmission electron microscopy (HRTEM). Cyclic voltammetry
was used to characterize the electrocatalytic activity of the highly
dispersed erGOx/Pt hybrid material toward the oxidation of ammonia,
which showed a 5-fold current density increase when compared with
commercially available Vulcan/Pt 20%. This is in agreement with having
Pt (100) facets present in the HRTEM images of the erGOx/Pt material.
The enzyme telomerase is present in about 85% of human cancers which makes it not only a good target for cancer treatment but also an excellent marker for cancer detection. Using a single stranded DNA probe specific for telomerase binding and reverse transcription tethered to an interdigital gold electrode array surface, the chromosome protection provided by the telomerase was replicated and followed by Electrochemical Impedance Spectroscopy as an unlabeled biosensor. Using this system designed in-house, easy and affordable, impedance measurements were taken while incubating at 37 °C and promoting the probe elongation. This resulted in up to 14-fold increase in the charge transfer resistance when testing a telomerase-positive nuclear extract from Jurkat cells compared to the heat-inactivated telomerase-negative nuclear extract. The electron transfer process at the Au electrodes was studied before the elongation, at different times after the elongation, and after desorption of non-specific binding.
In this study, electrochemical impedance spectroscopy was used for the first time to study the adsorption of dopamine in carbon fiber microelectrodes. In order to show a proof-of-concept, static and dynamic measurements were taken at potentials ranging from -0.4 to 0.8 V versus Ag|AgCl to demonstrate the versatility of this technique to study dopamine without the need of its oxidation. We used electrochemical impedance spectroscopy and single frequency electrochemical impedance to measure different concentrations of dopamine as low as 1 nM. Moreover, the capacitance of the microelectrodes surface was found to decrease due to dopamine adsorption, which is dependent on its concentration. The effect of dissolved oxygen and electrochemical oxidation of the surface in the detection of dopamine was also studied. Nonoxidized and oxidized carbon fiber microelectrodes were prepared and characterized by optical microscopy, scanning electron microscopy, cyclic voltammetry, and electrochemical impedance spectroscopy. Optimum working parameters of the electrodes, such as frequency and voltage, were obtained for better measurement. Electrochemical impedance of dopamine was determined at different concentration, voltages, and frequencies. Finally, dynamic experiments were conducted using a flow cell and single frequency impedance in order to study continuous and real-time measurements of dopamine.
Aptamer-modified
microelectrodes for Neuropeptide Y measurement
by electrochemical impedance spectroscopy was described here. The
advantages of using carbon fiber or platinum microelectrodes are because
they are promising materials with high electrical conductivity, chemical
stability, and high surface area that can be easily modified on their
surface. The immobilization and biofouling were studied and compared
using EIS. Moreover, the adsorption of NPY to the aptamer-modified
microelectrodes was also demonstrated by EIS. Changes of −ω*Z
imag, an impedance factor that gives information
of the capacitance, is directly correlated with concentrations. A
widely linear range was obtained from 10 to 1000 ng/mL of NPY. This
method was able to detect NPY without performing a redox reaction
by adsorption at the surface of the microelectrodes, with the specificity
provided by aptamer functionalization of the microelectrode surface.
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