Metrohm 746 VA Trace Analyzer User Manual

7.5 Vagaries of the chemistry

746 VA Trace Analyzer / 747 VA Stand

7-43

7.5.3

Unsuitable bridging electrolyte solution in the reference
electrode

When choosing the bridging electrolyte in the reference electrode, possible compli-

cations with the substances present in the analysis solution must be taken into ac-

count.
With regard to the bridging electrolyte solution KCl 3 mol/L used in many cases,

the following are examples of disturbances which can appear:

•

• Precipitation of KClO

4

in the ceramic diaphragm

with supporting electrolytes containing HClO

4

With partial blockage, inexplicable side peaks can appear, with complete

blockage one of the following error messages appears:

VA STAND - ERROR 2: Working electrode faulty
VA STAND - ERROR 4: Reference electrode faulty

To avoid such precipitations, with analysis solutions containing HClO

4

a

bridging electrolyte solution free from alkalis or alkaline earths (e.g. acetate

buffer) must be used.

•

Introduction of Cl

–

through KCl outflow from

the reference electrode

The outflow of bridging electrolyte from the ceramic diaphragm of the

6.1245.010 Electrolyte vessel (part of the reference electrode) is 2...5

µ

L/h.

The Cl

–

flowing into the analysis solution can interfere with the determination

of vitamin C or the determination of Cu (see also section 7.5.6).
The use of Cl

–

free bridging electrolyte solutions (e.g. KNO

3

sat.) is rec-

ommended as a countermeasure.

7.5.4

Overcharging of the working electrode

Under unfavorable conditions (high concentrations and/or long enrichment times),

the enrichment of species at polarized electrodes leads to overcharging phenom-

ena such as non-linear standard addition curves or splitting into multiple peaks

which are caused by saturation and different deposition forms.
A shorter enrichment time usually solves the problem. The following rule of

thumb holds: In general, enrichment should not be carried out except in solutions

with a mass concentration

ρ < 0.5 mg/L (= 0.5 ppm). In several cases work can be

carried out without enrichment even with concentrations

ρ > 100

µ

g/L (e.g. DP

voltammetry at the HMDE or also at the DME).
The effects of an enrichment time which is too long are shown by the following two

examples:

•

• Nickel and cobalt determination in the trace region by cathodic

adsorption stripping voltammetry (with dimethylglyoxime com-

plexes)

Prolongation of the enrichment time from 30 s to 120 s (keeping all other

measurement parameters constant) leads to non-linear standard additions

and in the case of nickel also to shifts in the peak maximum: