3 eluents, Eluents – Metrohm 820 IC Separation Center User Manual

4 Notes - Maintenance - Faults

819 IC Detector / 820 IC Separation Center

68

valves, pressure rise and in extreme cases to scratched pistons. It is

thus essential to ensure that no precipitates can appear (see also

Section 4.1.4).

4.1.3 Eluents

Treatment

For the preparation of the eluents only chemicals of a purity degree of

at least "p.a." should be used. For diluting please use only high purity

water.
Fresh eluents should always be microfiltered (0.45

µ

m filter) and de-

gassed (with N

2

, He or vacuum). For high sensitive measurements, the

eluent should be continuously stirred with a magnetic stirrer, particu-

larly when the recycling procedure is employed or when alkaline eluents

are used. For alkaline eluents and eluents with low buffering capacity

one should preferably use a CO

2

absorber (e.g. the absorber supplied

with the optional 6.5324.000 Bottle rack).
The supply vessel containing the eluent must be closed as tightly as

possible to avoid excessive evaporation. This is primarily important with

eluents containing organic solvents (e.g. acetone), the evaporation of

which can lead to drifts in the long term. If work is performed in a very

sensitive range, even if one drop of condensate falls back in the eluent

this can cause a noticeable change in the background conductivity.

Influence of various parameters on anion columns

•

Concentration:

An increase in the concentration usually leads

to shorter retention times and quicker separa-

tion, but also to a higher background conduc-

tivity.

•

pH:

pH alterations lead to shifts in the dissociation

equilibrium and thus to changes in the reten-

tion times.

•

Organic modifiers:

Addition of an organic solvent (e.g. methanol,

acetone, acetonitrile) to aqueous eluents

generally accelerates lipophilic ions.