Ligand Exchange Chromatography

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Ligand Exchange Chromatography

Ligand exchange chromatography is a specialised form of chromatography based on the interaction between a metal ion bound to the stationary phase and the analytes that can complex with this metal ion. This technique is mainly used to separate and analyse enantiomers and to separate molecules that are able to form stable complexes with the metal ion, such as certain amino acids, peptides, nucleotides and carbohydrates.

A significant advantage of ligand exchange chromatography is its high enantioselectivity, which makes it particularly valuable for chiral separation, a critical requirement in the pharmaceutical industry. With the ability to effectively separate optical isomers, this method supports drug development and quality control by ensuring that the therapeutically effective enantiomer is separated from potentially harmful isomers. In addition, ligand exchange chromatography offers excellent selectivity and sensitivity for the separation and analysis of biomolecules and metal ion-complexing compounds, making it a valuable tool in biochemical research, environmental analysis and food chemistry.

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SUPELCOGEL™ 8Ca, 8% Crosslinked HPLC Column, 9 µm particle size, L x I.D. 25 cm x 4.6 mm

SU-59249-U

Product Type: HPLC Column Delivery Time: please inquire Column Type: Analytical Column Manufacturer: Merck Supelco Flow Rate [ml/min]: 0.4 Hardware Type: Ready-to-use Column Matrix: Polymer Internal Diameter: 4.6 mm Length: 250 mm pH Minimum: 1.0 pH Maximum: 13.0 Pressure Stability: 70 bar Technology: HPLC Temperature Maximum [°C]: 90 USP Class: L19

Xtimate® Sugar-Ca, 8µm, 6.5x300mm, HPLC Column

WE-00108-43047

Product Type: HPLC Column Base Material: Ca2+-modified PS-DVB 8% cross-linked Delivery Time: approx. 7 days Chemistry: Strong cation-exchange Column Type: Semi-preparative Column Manufacturer: Welch Materials Hardware Type: Ready-to-use Column Matrix: Polymer Internal Diameter: 6.5 mm Length: 300 mm Particle Morphology: spherical, fully porous pH Minimum: 5.0 pH Maximum: 9.0 Pore Size: 120 Å Technology: HPLC Temperature Maximum [°C]: 95 USP Class: L19

RSpak DC-LG 50x8mm Polymer based Preparative Column

SD-F6700402

Product Type: HPLC Guard Columns Delivery Time: please inquire Manufacturer: Shodex - Resonac Hardware Type: Ready-to-use Column Internal Diameter: 8.0 mm Length: 50 mm Technology: HPLC

SUGAR KS-807G 50x6.0mm Sugars

SD-F6700021

Product Type: HPLC Guard Columns Base Material: Styrene-divinylbenzene Delivery Time: please inquire Chemistry: Sugar Manufacturer: Shodex - Resonac Hardware Type: Ready-to-use Column Matrix: Polymer Internal Diameter: 6.0 mm Length: 50 mm Technology: HPLC USP Class: L58

SUGAR KS-LG 50x8mm Sugar Preparative Column

SD-F6700002

RSpak DC-2013 300x20mm Polymer based Preparative Column

SD-F6514013

Product Type: HPLC Column Delivery Time: please inquire Column Type: Preparative Column Manufacturer: Shodex - Resonac Hardware Type: Ready-to-use Column Internal Diameter: 20 mm Length: 300 mm Technology: HPLC

SUGAR KS-2006 300x20mm Sugar Preparative Column

SD-F6502012

Product Type: HPLC Column Base Material: Styrene-divinylbenzene Delivery Time: please inquire Chemistry: Sugar Column Type: Preparative Column Manufacturer: Shodex - Resonac Hardware Type: Ready-to-use Column Matrix: Polymer Internal Diameter: 20 mm Length: 300 mm Technology: HPLC

SUGAR KS-2005 300x20mm Sugar Preparative Column

SD-F6502011

SUGAR KS-2004 300x20mm Sugar Preparative Column

SD-F6502010

SUGAR KS-2003 300x20mm Sugar Preparative Column

SD-F6502009

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Technical Data

Basics

Ligand exchange chromatography is particularly important for analysing sugars. Sulphonate groups are bound to the surface of the stationary phase, which are neutralised to the outside with different metal ions. These metal sulphonates can form complexes with the hydroxyl groups of the sugar molecules. These complexes have different stabilities depending on the type and number of hydroxyl groups involved and the metal ion. The saccharides to be separated are therefore retained to different degrees by the stationary phase and thus eluted at different times.

In Figure 1a, three hydroxyl groups are involved in the formation of a complex. In Figure 1b, only two OH groups can participate in the complex formation due to the spatial arrangement of the hydroxyl groups in the sugar molecule. Thus, the interaction of the sugar molecule with the stationary phase is greater for (a) than for (b).

The ligand exchange mechanism (LEX) is often operated in dual mode with size exclusion chromatography (SEC) or hydrophilic interaction chromatography (HILIC). For the combination of LEX and SEC, only water is used as the mobile phase; for LEX and HILIC, mixtures of acetonitrile and water are used.

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