3 pulsed amperometric detection, Pulsed amperometric detection, Figure 5 – Metrohm 871 Advanced Bioscan User Manual

3.3 Pulsed amperometric detection

871 Advanced Bioscan / Instructions for Use 8.871.1003

17

a displacement of the characteristic current/poten-

oltammograms). Possible results are

ity and lower sig-

ensure that a stable

baseline and reproducible measuring conditions are

ned care should be taken that the pH of the

Pulsation

Electrochemical reactions at the electrode surfaces

depend on the transport of the reacting substances

to the electrode. This is why a constant eluent flow

is crucial, both for a stable baseline and also for re-

supply must be ensured. You should use the pulsa-

tion absorber provided (see Section 2.4.3).

3.3

Pulsed amperometric detection

During an amperometric determination the reaction products formed on

the working electrode can alter its surface properties by adsorption. In

pulsed amperometric detection (PAD) it is possible to apply further po-

tentials cyclically in addition to the detection potential in order to ensure

a constant electrode surface. In this way the electrode surface is re-

newed after each current measurement and remains in this activated

condition.
The exact potential steps are shown in Figure 5 as a function of time.

tial curves (v

the reduction of the signal intens

nal/noise ratios. In order to

obtai

eluent is correct.

•

producible signals. This is why pulsation-free eluent

Figure 5: Potentials applied during pulsed amperometric detection (PAD)

The working potential E1 is applied during the time t1 with the signal

being measured in ts. The high positive potential E2 causes the oxida-
tive removement of reaction products from the electrode surface, which
is reduced to a reconditioned surface during t3.

2.0

1.0