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Signal voltammetry

Techniques, such as spectroscopy (Chapter 10), potentiometry (Chapter 11), and voltammetry (Chapter 11), in which the signal is proportional to the relative amount of analyte in a sample are called concentration techniques. Since most concentration techniques rely on measuring an optical or electrical signal, they also are known as instrumental techniques. For a concentration technique, the relationship between the signal and the analyte is a theoretical function that depends on experimental conditions and the instrumentation used to measure the signal. For this reason the value of k in equation 3.2 must be determined experimentally. [Pg.38]

Potential-excitation signal and voltammogram for anodic stripping voltammetry at a hanging mercury drop electrode. [Pg.518]

Time, Cost, and Equipment Commercial instrumentation for voltammetry ranges from less than 1000 for simple instruments to as much as 20,000 for more sophisticated instruments. In general, less expensive instrumentation is limited to linear potential scans, and the more expensive instruments allow for more complex potential-excitation signals using potential pulses. Except for stripping voltammetry, which uses long deposition times, voltammetric analyses are relatively rapid. [Pg.531]

Nitrophenyl groups covalently bonded to classy carbon and graphite surfaces have been detected and characterized by unenhanced Raman spectroscopy in combination with voltammetry and XPS [4.292]. Difference spectra from glassy carbon with and without nitrophenyl modification contained several Raman bands from the nitrophenyl group with a comparatively large signal-to-noise ratio (Fig. 4.58). Electrochemical modification of the adsorbed monolayer was observed spectrally, because this led to clear changes in the Raman spectrum. [Pg.260]

FIGURE 3-5 Excitation signal for differential-pulse voltammetry. [Pg.69]

Describe clearly the principle and operation of potentiometric stripping analysis (PSA). How it is differed from anodic stripping voltammetry (ASV) What is the quantitative signal What is its advantage over ASV ... [Pg.99]

The methods of ac voltammetry are widely used for kinetic studies of different electrochemical reactions. The sensitivity for analytical purposes is about 10 M. It can be raised by about an order of magnitude when versions are used in which the ac signal is recorded not at the fundamental frequency of the ac voltage, but at its second harmonic, or when still more complicated effects are used. [Pg.398]

Voltammetry is a part of the repertoire of dynamic electrochemical techniques for the study of redox (reduction-oxidation) reactions through current-voltage relationships. Experimentally, the current response (i, the signal) is obtained by the applied voltage (.E, the excitation) in a suitable electrochemical cell. Polarography is a special form of voltammetry where redox reactions are studied with a dropping mercury electrode (DME). Polarography was the first dynamic electrochemical technique developed by J. Heyrovsky in 1922. He was awarded the Nobel Prize in Chemistry for this discovery. [Pg.662]

Application of these curves may have as other objective to uncover the kinetic characteristics of the electrode electron transfer. This cannot be done in the absence of catalysis since the RDEV response is nil insofar as the steady-state response of an attached species is nil. Cyclic voltammetry could be used instead. The response is not nil, but the signal is in general small, often hardly emerging from the baseline current. Determining the standard potential under these conditions is generally feasible, but an accurate... [Pg.273]

Fig. 5 Linear sweep and cyclic voltammetry (a) dotted lines five profiles respectively at various typical excitation signal (b) current response times, increasing time shown by arrows] for a and concentration profiles [(c) forward scan cyclic voltammetric experiment. Fig. 5 Linear sweep and cyclic voltammetry (a) dotted lines five profiles respectively at various typical excitation signal (b) current response times, increasing time shown by arrows] for a and concentration profiles [(c) forward scan cyclic voltammetric experiment.
Cyclic voltammetry is generally considered to be of limited use in ultratrace electrochemical analysis. This is because the high double layercharging currents observed at a macroelectrode make the signal-to-back-ground ratio low. The voltammograms in Eig. 9B clearly show that at the NEEs, cyclic voltammetry can be a very powerful electroanalytical technique. There is, however, a caveat. Because the NEEs are more sensitive to electron transfer kinetics, the enhancement in detection limit that is, in principle, possible could be lost for couples with low values of the heterogeneous rate constant. This is because one effect of slow electron transfer kinetics at the NEE is to lower the measured Faradaic currents (e.g.. Fig. 8). [Pg.22]

Gonzalez-Mora JT, Fumero B, Mas M. 1991. Mathematical resolution of mixed in vivo voltammetry signals models, equipment, assesment by simultaneous microdialysis sampling. J neurosci methods 231—244. [Pg.246]

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See also in sourсe #XX -- [ Pg.980 ]



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A Excitation Signals in Voltammetry

Cyclic voltammetry excitation signal

Square-wave voltammetry excitation signal

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