Metrohm 840 PC Control 5.0 / Touch Control User Manual

4

Parameters

PC Control / Touch Control

233

4.4.2 Evaluation of pK value and half neutralization potential

(EVAL pK/HNP)

The pK value can be determined for pH titrations (DET and MET) and

the half neutralization potential can be determined for U titrations.
The activities of conjugated acid-base pairs are linked by the following

equation (Henderson-Hasselbalch equation):

pH = pK

a

+ log (a

B

/a

A

)

If the activities of the acid and the conjugated base are equal (a

A

= a

B

),

then pH=pK

a

. This is the value at the half neutralization point and can

be extrapolated from the titration curve. A careful pH calibration is nec-

essary for pK evaluations and even then the determined pK value is

only an approximation, as the ionic strengths are not taken into ac-

count. In order to obtain a more accurate value, titrations must be car-

ried out with decreasing ionic strengths and the results extrapolated to

the ionic strength zero. pK evaluation in aqueous solution is limited to

the range 3.5 < pK < 10.5 because of the leveling effect of strong ac-

ids and the lack of jumps with very weak acids. pK values of mixtures of

acids and polyvalent acids can also be determined.

1/2

Volume

1/2

1/2

1/2

EP2

pK2

EP1

pK1

Measured value

Fig. 4.15: Determining the pK value from the titration curve

In non-aqueous solutions the half neutralization potential (HNP) is fre-

quently used instead of the pK value. The HNP is evaluated in the same

way as the pK value.
No parameters can be edited for the command EVAL pK/HNP. If a start

volume is to be added then it must be smaller than 1/2 V

EP1

.