3 selection of polarization voltage, 4 procedure for unknown substances – Metrohm 791 VA Detector User Manual

3.1 Electrochemical detection

791 VA Detector

17

current ranges > 5 nA. Please pay particular consideration to this on

changing the eluent or the sample solution: the "same" eluent may have

a different background current because eluents are never exactly the

same (ionic strength, pH value, etc.!).

3.1.3

Selection of polarization voltage

The hydrodynamic voltammograms show the voltage limit from the

point where a substance is oxidized or reduced. This voltage limit is

generally higher than the voltage predicted by thermodynamics be-

cause of inhibitions of the electrode reaction. Increasing voltage values

give rise to increasing currents up to a maximum value, the diffusion-

controlled limiting current.
In Fig. 8 for example, analytes a, b, and c are detected at voltage U

2

;

whereas at voltage U

1

, component a is detected selectively. Therefore

the polarization voltage to be set has to be optimized for sensitivity on

one hand and selectivity on the other.
The polarization voltage to be set also depends on the type and condi-

tion of the working electrode (see section 3.5) as well as on the eluent.

The latter could be illustrated by Fig. 8, saying that the curves are from

one single analyte taken in 3 eluents with different pH values.

a

b

c

U

1

U

2

U

pol

I

Fig. 8: Selection of polarization voltage

3.1.4

Procedure for unknown substances

The hydrodynamic current/voltage curve of an analyte with unknown

electrochemical characteristics is recorded as follows:

•

Short circuit the system, i.e. connect the injector directly (without

separating column) to the electrochemical detector.

•

Set current range of 791 VA Detector to 100

…

500 nA.

•

Set polarization voltage of 791 VA Detector to +1200 mV.

•

Inject analyte (20

…

100 ng).

Background

current

Diffusion-

controlled

limiting

current