Lin, Graphene Based Electrochemical Sensors and Biosensors: a Review,
Electroanalysis, 22, 1027 (2010).
Among their topics are gold nanoparticles in bioanalytical techniques, the extinction and emission of nanoparticles for application in rapid immunotests, energy transfer in liquid and solid nano-objects: application in luminescent analysis, carbon nanomaterials and surfactants as electrode surface modifiers in organic
electroanalysis, sorbents based on carbon nanotubes, and applying microemulsions in extracting and pre-concentrating hydrophobic target compounds.
However, direct
electroanalysis of Fenthion, without any preconcentration, derivation or modified electrode as sensor or biosensor still unexplored [29-32].
Ye, "Facile and Simultaneous Stripping Determination of Zinc, Cadmium and Lead on Disposable Multiwalled Carbon Nanotubes Modified Screen-Printed Electrode,"
Electroanalysis, vol.
Compton, "Using capsaicin modified multiwalled carbon nanotube based electrodes and p-chloranil modified carbon paste electrodes for the determination of amines: Application to benzocaine and lidocaine,"
Electroanalysis, vol.
Smyth, "Application of nanoparticles in electrochemical sensors and biosensors,"
Electroanalysis, vol.
Compton, "The use of nanoparticles in
electroanalysis: a review," Analytical and Bioanalytical Chemistry, vol.
Yilmaz, "Electrochemical behavior of formoterol fumarate and its determination in capsules for inhalation and human serum using differential-pulse and square-wave voltammetry,"
Electroanalysis, vol.
Compton, "Simultaneous detection of homocysteine and cysteine in the presence of ascorbic acid and glutathione using a nanocarbon modified electrode,"
Electroanalysis, vol.
Economou, "Voltammetric Determination of Neonicotinoid Pesticides at Disposable Screen-Printed Sensors Featuring a Sputtered Bismuth Electrode,"
Electroanalysis, vol.
Lee, "Simultaneous determination of hydroquinone and catechol at an activated glassy carbon electrode,"
Electroanalysis, vol.