Ion Exchange Chromatography

Ion exchange chromatography (IEX) is used to separate and analyse charged or ionisable molecules. A distinction is made between anion and cation exchangers, and also between strong and weak exchangers.

 

  • SAX: Strong Anion Exchanger
  • WAX: Weak Anion Exchanger
  • SCX: Strong Cation Exchanger
  • WCX: Weak Cation Exchanger

     

Ion exchange chromatography is often used as a bioseparation technique for proteins and antibodies. Proteins are separated according to their net or surface charge, which is dependent on the pH value and the ionic strength of the mobile phase. Other areas of application include oligonucleotides, sugars, RNA and DNA molecules and more.

Ion chromatography and ion exclusion chromatography are two special cases of ion exchange chromatography with their own column technologies for specific applications.

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2546D140SB100
€442.00
2504D140SB100
€442.00
2503D140SB100
€442.00
2502D140SB100
€442.00
2046D140SB100
€442.00
2004D140SB100
€442.00
2003D140SB100
€442.00
2002D140SB100
€442.00
1546D140SB100
€388.00
1504D140SB100
€388.00
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Technical Data

Basics

An elution sequence for ion exchange chromatography (IEX) is often difficult to predict because the elution or retention of molecules depends on many parameters. Important parameters include the type of ion exchanger used, the pH value, the ionic strength and the type of counterion in the mobile phase, as well as the electronic properties of the analytes.

The surface of the stationary phases carry ionic groups, which are neutralised to the outside by mobile counterions of the mobile phase.

The analyte molecules compete with each other and with the counterions present in the mobile phase for a place on the surface of the stationary phase. As a rule, more strongly charged analyte molecules are also more strongly retarded than those that only have weak charges or are neutral.

Anion exchangers carry positive charges on the surface, e.g. quaternary or primary ammonium groups, in order to bind anions. Cation exchangers therefore carry negative charges on the surface,
e.g. sulphonates or carboxylates, in order to bind cations (see figure for examples).

Ion exchange chromatography manufacturers and columns

1. Columns for cation exchange chromatography

Manufacturer

Name

Base material

Modification

Pore size

Particle size

pH range

Tosoh Bioscience

TSKgel CM-2SW

Silica gel

Carboxymethyl (Na+)

125 Å

5 µm

2.0-7.5

 

TSKgel CM-3SW

Silica gel

Carboxymethyl (Na+)

250 Å

10 µm

2.0-7.5

 

TSKgel SP-2SW

Silica gel

Sulfopropyl (Na+)

125 Å

5 µm

2.0-7.5

 

TSKgel CM-5PW

Polymethacrylates

Carboxymethyl (Na+)

1000 Å

10 & 13 µm

2.0-12.0

 

TSKgel SP-5PW

Polymethacrylates

Sulfopropyl (Na+)

1000 Å

10, 13 & 20 µm

2.0-12.0

 

TSKgel SP-NPR

Polymethacrylates

Sulfopropyl (Na+)

non-porous

2.5 µm

2.0-12.0

 

TSKgel SP-STAT

Polymethacrylates

Sulfopropyl (Na+)

non-porous

7 & 10 µm

3.0-10.0

 

TSKgel CM-STAT

Polymethacrylates

Carboxymethyl (Na+)

non-porous

7 & 10 µm

3.0-10.0

 

TSKgel Bioassist S PEEK

Polymethacrylates

Sulfopropyl (Na+)

~1300 Å

7 & 13 µm

2.0-12.0

 

TSKgel SCX (Na+)

PS/DVB

Sulphonic acid (Na+)

60 Å

5 µm

1.0-14.0

 

TSKgel SCX (H+)

PS/DVB

Sulphonic acid (H+)

60 Å

5 µm

1.0-14.0

Shodex

IEC SP-825

Polymethacrylates

Sulfopropyl

5000 Å

8 µm

2.0-12.0

 

IEC SP-2025

Polymethacrylates

Sulfopropyl

5000 Å

20 µm

2.0-12.0

 

IEC SP-FT 4A

Polymethacrylates

Sulfopropyl

non-porous

2.7 µm

2.0-12.0

 

IEC CM-825

Polymethacrylates

Carboxymethyl

5000 Å

8 µm

2.0-12.0

 

IEC CM-2025

Polymethacrylates

Carboxymethyl

5000 Å

20 µm

2.0-12.0

 

Asahipak ES-502C 7C

Polymethacrylates

Carboxymethyl

2000 Å

9 µm

2.0-12.0

 

Asahipak ES-502C 20C

Polymethacrylates

Carboxymethyl

2000 Å

13 µm

2.0-12.0

 

CXpak P-421S

PS/DVB

Sulphonic acid (Na+)

N/A

6 µm

3.0-14.0

 

CXpak P-G

PS/DVB

Sulphonic acid (Na+)

N/A

6 µm

3.0-14.0

Sepax

Proteomix SCX

PS/DVB with neutral 
hydrophilic polymer layer

Sulphonate

non-porous

1.7, 3, 5 & 10 µm

2.0-12.0

 

Proteomix WCX

PS/DVB with neutral 
hydrophilic polymer layer

Carboxylates

non-porous

1.7, 3, 5 & 10 µm

2.0-12.0

 

Antibodix WCX

PS/DVB with neutral 
hydrophilic polymer layer

Carboxylates

non-porous

1.7, 3, 5 & 10 µm

2.0-12.0

GL Sciences

InertSil CX

Silica Gel

Benzenesulfonic acid

100 Å

5 µm

2.0-7.5

Macherey nail

Nucleogel SCX

Polymethacrylates

Sulphonates

1000 Å

8 µm

1.0-13.0

Separation Methods Technologies

SMT SCX

Silica Gel

Sulfonic acid

100 Å, 300 Å

5 & 10 µm

2.0-7.5

 

SMT WCX

Silica gel

Carboxylic acid

100 Å, 300 Å

5 & 10 µm

2.0-7.5

Supelco

Discovery Bio PolyMA-SCX

Polymethacrylates

Sulfopropyl (Na+)

1000 Å

5 µm

1.0-13.0

Thermo Scientific

BioBasic SCX

Silica Gel

Sulfonic acid

300 Å

5 µm

2.0-7.5

 

ProPac SCX-10

Ethylvinylbenzene crosslinked 
with 55% divinylbenzene

Sulfonic acid

non-porous

10 µm

2.0-12.0

 

ProPac SCX-20

Ethylvinylbenzene crosslinked 
with 55% divinylbenzene

Sulfonic acid

non-porous

10 µm

2.0-12.0

 

ProPac WCX-10

Ethylvinylbenzene crosslinked 
with 55% divinylbenzene

Carboxylic acid

non-porous

10 µm

2.0-12.0

 

ProPac Elite WCX

DVB particles with 
hydrophilic coating

Carboxylic acid

non-porous

5 µm

2.0-12.0

 

ProSwift SCX-1S

Polymethacrylate

Sulphonic acid

N/A

monolithic

2.0-12.0

 

ProSwift WCX-1S

Polymethacrylate

Carboxylic acid

N/A

monolithic

2.0-12.0

 

MAbPac SCX-10

Polydivinylbenzene

Sulfonic acid

non-porous

3, 5, & 10 µm

2.0-12.0

 

2. Columns for anion exchange chromatography

Manufacturer

Name

Base material

Modification

Pore size

Particle size

pH range

Tosoh Bioscience

TSKgel BioAssist Q

Polymethacrylates

Polyamines (Cl-)

~4000 Å

10 & 13 µm

2.0-12.0

 

TSKgel SuperQ-5PW

Polymethacrylates

Trimethyl-amino (Cl-)

1000 Å

10 & 13 µm

2.0-12.0

 

TSKgel DEAE-5PW

Polymethacrylates

Diethylaminoethyl (Cl-)

1000 Å

10, 13 & 20 µm

2.0-12.0

 

TSKgel Q-STAT

Polymethacrylates

Trimethyl-amino (Cl-)

non-porous

7 & 10 µm

3.0-10.0

 

TSKgel DNA-STAT

Polymethacrylates

Trimethyl-amino (Cl-)

non-porous

5 µm

3.0-10.0

 

TSKgel DEAE-NPR

Polymethacrylates

Diethylaminoethyl (Cl-)

non-porous

2.5 µm

2.0-12.0

 

TSKgel DNA-NPR

Polymethacrylate

Proprietary (ClO4-)

non-porous

2.5 µm

2.0-12.0

 

TSKgel DEAE-2SW

Silica gel

Diethylaminoethyl (H2PO4-)

125 Å

5 µm

2.0-7.5

 

TSKgel DEAE-3SW

Silica gel

Diethylaminoethyl (Cl-)

250 Å

10 µm

2.0-7.5

 

TSKgel SUGAR AXI

PS/DVB

Trimethyl-amino (HBO3-)

60 Å

8 µm

1.0-14.0

 

TSKgel SUGAR AXG

PS/DVB

Trimethyl-amino (HBO3-)

60 Å

10 µm

1.0-14.0

 

TSKgel SAX

PS/DVB

Trimethyl-amino (Cl-)

60 Å

5 µm

1.0-14.0

Shodex

IEC QA-825

Polymethacrylate

Quat. Ammonium

5000 Å

12 µm

2.0-12.0

 

IEC QA-2025

Polymethacrylates

Quat. Ammonium

5000 Å

20 µm

2.0-12.0

 

IEC DEAE-825

Polymethacrylates

Diethylaminoethyl

5000 Å

8 µm

2.0-12.0

 

IEC DEAE-2025

Polymethacrylates

Diethylaminoethyl

5000 Å

20 µm

2.0-12.0

 

AXpak WA-624

Polymethacrylates

Diethylaminoethyl

2000 Å

10 µm

3.0-12.0

 

Asahipak ES-502N 7C

Polyvinyl alcohol

Diethylaminoethyl

2000 Å

9 µm

2.0-12.0

 

Asahipak ES-502N 20C

Polyvinyl alcohol

Diethylaminoethyl

2000 Å

13 µm

2.0-12.0

Sepax

Proteomix SAX

PS/DVB with neutral 
hydrophilic polymer layer

Quat. Ammonium

non-porous

1.7, 3, 5 & 10 µm

2.0-12.0

 

Proteomix WAX

PS/DVB with neutral 
hydrophilic polymer layer

Diethylaminoethyl

non-porous

1.7, 3, 5 & 10 µm

2.0-12.0

 

Glycomix SAX

Hydrophilic polymer

Quat. Ammonium

N/A

N/A

2.0-12.0

GL Sciences

InertSil AX

Silica Gel

Diethylaminopropyl

100 Å

5 µm

2.0-7.5

Macherey nail

Nucleogen DEAE

Silica gel

Diethylaminoethyl

60, 500, 4000 Å

7 µm

2.0-7.5

 

Nucleogel SAX

Quaternised PEI

Quat. Ammonium

1000 Å

8 µm

1.0-13.0

Separation Methods Technologies

SMT SAX

Silica Gel

Quat. Ammonium

100, 300 Å

5 & 10 µm

2.0-7.5

 

SMT WAX

Silica gel

Polyethyleneimine

100, 300 Å

5 & 10 µm

2.0-7.5

Supelco

Discovery Bio PolyMA-WAX

Polymethacrylates

Diethylaminoethyl

1000 Å

5 µm

2.0-11.0

Thermo Scientific

Hypersil Gold AX

Silica Gel

Polyethyleneimine

175 Å

1.9, 3 & 5 µm

2.0-8.0

 

HyperSil Gold SAX

Silica Gel

Quat. Ammonium

175 Å

1.9, 3 & 5 µm

2.0-8.0

 

BioBasic AX

Silica Gel

Polyethyleneimine

300 Å

5 µm

2.0-8.0

 

ProPac SAX-10

Ethylvinylbenzene crosslinked 
with 55% divinylbenzene

Quat. Ammonium

non-porous

10 µm

2.0-12.0

 

ProPac WAX-10

Ethylvinylbenzene crosslinked 
with 55% divinylbenzene

Tertiary amines

non-porous

10 µm

2.0-12.0

 

ProSwift SAX-1S

Polymethacrylate

Quat. Ammonium

N/A

monolithic

2.0-12.0

 

ProSwift WAX-1S

polymethacrylates

Diethylaminoethyl

N/A

monolithic

2.0-12.0

 

DNAPac PA100

Pellicular polymer beads

Quat. Ammonium

non-porous

13 µm

2.0-12.5

 

DNAPac PA200

Pellicular polymer beads

Quat. Ammonium

non-porous

8 µm

2.0-12.5

 

DNAPac PA200RS

Pellicular polymer beads

Quat. Ammonium

non-porous

4 µm

2.0-12.5

 

DNASwift SAX-1S

Polymethacrylate

Quat. Ammonium

N/A

monolithic

6.0-12.4

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