Bio-Rad AG® MP-50 Cation Exchange Resins User Manual

Table 5. Techniques for AG Resin Conversion

Bio-Rex

®

AG 50 resin MSZ 50 resin

Conversion

H

+

➝ Na

+

H

+

➝ pyridinium

from ➝ to
Reagent used

1 M NaOH

1 M pyridine
(wash with H

2

O

before pyridine)

Volumes of sol’n/

2

2

vol. of resin
Flow rate

(2)

2

1

ml/min/cm

2

of bed

Type of exchange

(1)

N

N

Test for completeness pH 9

(3)

—

of conversion
Rinse: vol. DI water/

4

—

vol. resin
Test for completion

pH<9

—

of rinsing

1.

N = Neutralization

2.

For 50-100 or finer mesh resin. For 20-50 mesh, about

1

⁄

5

the flow

rate is recommended.

3.

Test for pH 4.8 – pH paper or methyl orange (red pH 1, yellow
pH 4.8). Test for pH 9 – pH paper or thymolphthalein (blue pH 10,
colorless at pH 9).

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remember that the resin may shrink, or it may swell as
much as 100%, depending on the conversion.

Conversions to ionic forms not listed in Table 5 can

be achieved using the information supplied in Table 3,
which lists relative selectivities of various counterions
for AG 50 resin. To convert a resin to an ionic form with
a higher selectivity, wash the resin with 2-3 bed volumes
of a 1 M solution of the desired counterion. For
conversion to an ionic form with a lower relative
selectivity for the resin, the necessary volume of
counterion solution will depend on the difference in
selectivity. As a general rule, use 1 bed volume of 1 M
counterion solution for each unit difference in relative
selectivity. For example, converting AG 50W-X8 resin
from the K

+

form (relative selectivity 2.5) to the H

+

form

(relative selectivity 1.0) would require 2-3 bed volumes
of 1 M HCl. The conversion is complete when all the K

+

ions are displaced by the H

+

ions.

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LIT203B 6/17/98 12:00 PM Page 8