Immobilized Polysaccharide-based CSPs & Columns
The advent of CHIRALPAK® IA™, IB™, IC™ and ID™ immobilized polysaccharide CSPs from Chiral Technologies Worldwide now allows chemists to choose from a large assortment of organic solvents as mobile phases and better control compound solubility, leading to the development of new separations with high levels of enantioselective recognition of chiral molecules.
Key features include:
Key features include:
• Resolution of compounds with limited solubility
• High selectivity in the resolution of enantiomers
• Robustness leading to extended durability
• Cost-effective route to scale up
• High selectivity in the resolution of enantiomers
• Robustness leading to extended durability
• Cost-effective route to scale up
As with the majority of our CSPs, the immobilized polysaccharide CSPs exhibit stability to pressure drops up to 400 bar. Such high stationary phase stability ensures efficient column operation over an extended period of time.
Columns, packed with 3- and 5-µm immobilized CSPs — CHIRALPAK IA, IB and IC — are available in various dimensions for analytical- and preparative-scale applications. For larger scale separations, the CSPs are also available as bulk stationary phases (20-µm particle size).
Our new CHIRALPAK ID CSP is currently available in 5-µm particle size, packed in columns 250mm and 150mm long.
The immobilized chiral phases can be effectively employed for analytical method development under reversed-phase (RP) chromatographic conditions. Many RP and LCMS-compatible separation methods have been identified using these CSPs.
Columns, packed with 3- and 5-µm immobilized CSPs — CHIRALPAK IA, IB and IC — are available in various dimensions for analytical- and preparative-scale applications. For larger scale separations, the CSPs are also available as bulk stationary phases (20-µm particle size).
Our new CHIRALPAK ID CSP is currently available in 5-µm particle size, packed in columns 250mm and 150mm long.
The immobilized chiral phases can be effectively employed for analytical method development under reversed-phase (RP) chromatographic conditions. Many RP and LCMS-compatible separation methods have been identified using these CSPs.
