Chiral Cyclodextrin Capillary GC Columns
Brochures and specifications | 1998 | MerckInstrumentation
Modern analytical chemistry demands precise enantiomeric analysis because chiral molecules often elicit distinct biological or sensory effects. Cyclodextrin‐based capillary GC columns permit direct, high-resolution separation of optical and positional isomers without chemical derivatization, streamlining workflows in pharmaceuticals, food and flavor profiling, environmental monitoring and natural-product research
This selection guide presents the design, performance characteristics and application range of Supelco DEX columns. It reviews α-, β- and γ-cyclodextrin stationary phases on phenyl-polysiloxane backbones, outlines general guidelines for column selection and offers insights into test mixes, operational parameters and enantioreversal strategies for unambiguous peak assignments
Emerging cyclodextrin derivatives and optimized polysiloxane matrices will expand GC enantioselectivity to larger, more polar analytes. Integration with mass spectrometry and multidimensional GC promises enhanced structural elucidation and quantitation. High-throughput screening of chiral catalysts and biomarkers in complex matrices represent growing applications
Functionalized cyclodextrin capillary GC columns deliver robust, versatile enantioselective and positional isomer separations. By tailoring cyclodextrin type, phase composition, temperature and column geometry, analysts can achieve optimized performance across diverse sectors
GC, GC columns, Consumables
IndustriesManufacturerMerck
Summary
Significance of the Topic
Modern analytical chemistry demands precise enantiomeric analysis because chiral molecules often elicit distinct biological or sensory effects. Cyclodextrin‐based capillary GC columns permit direct, high-resolution separation of optical and positional isomers without chemical derivatization, streamlining workflows in pharmaceuticals, food and flavor profiling, environmental monitoring and natural-product research
Objectives and Article Overview
This selection guide presents the design, performance characteristics and application range of Supelco DEX columns. It reviews α-, β- and γ-cyclodextrin stationary phases on phenyl-polysiloxane backbones, outlines general guidelines for column selection and offers insights into test mixes, operational parameters and enantioreversal strategies for unambiguous peak assignments
Methodology and Instrumentation
- Stationary Phases Functionalization Permethylated α-, β- or γ-cyclodextrins incorporated into SPB-35 (35% phenyl) and derivatized CDs embedded in SPB-20 (20% phenyl) cophases
- Capillary Columns Fused silica tubing, 30 m×0.25 mm ID or custom 5–100 m lengths, films 0.1–0.5 µm
- Operating Conditions Helium or hydrogen carrier, isothermal or programmed ramps up to 240–250 °C, inlet conditioning to prevent phase solidification
- Performance Monitoring Individual isothermal test mixes containing normal alkanes, positional isomers and racemic analytes to track inertness, film thickness, efficiency and enantioselectivity
Main Results and Discussion
- Inclusion Cavity Size α-CD (4.7–5.2 Å) offers high shape selectivity for small analytes; β-CD (6.0–6.5 Å) is a first choice for broad enantiomeric separations; γ-CD (7.5–8.5 Å) accommodates larger molecules and enables enantioreversal
- Temperature Effects Lower isothermal temperatures increase separation factors (α values) but extend analysis time
- CD Content Higher cyclodextrin loading (10 % vs. 20 %) enhances enantioselectivity and increases stationary-phase polarity
- Column ID Decreasing internal diameter improves resolution at the expense of sample capacity; 0.25 mm ID is a practical compromise
- Phase Variants DEX 225 (di-O-acetyl TBDMS) and DEX 325 (di-O-methyl TBDMS) provide alternative selectivity profiles
- Enantioreversal Changing between α-, β- and γ-DEX phases confirms peak identity and supports mechanistic studies
Benefits and Practical Applications of the Method
- Pharmaceutical Analysis Direct determination of enantiomeric excess in drugs and intermediates without derivatization
- Food and Flavor Profiling Chiral profiling of essential oils, spices and aroma compounds using SPME–GC
- Environmental Monitoring Separation of chiral pollutants and positional isomers in petrochemicals, VOCs and pesticides
- Silane Chemistry Enantiomeric separation of chiral organosilicon reagents and products
- Quality Control Routine column performance checks with standardized chiral test mixes
Used Instrumentation
- Capillary GC systems with fused silica columns coated with DEX stationary phases
- Carrier gases helium or hydrogen at controlled linear velocities
- Flame ionization detection at 250–300 °C
- Solid phase microextraction fibers for solvent-free headspace sampling
- GlasSeal guard columns for inlet protection
Future Trends and Potential Applications
Emerging cyclodextrin derivatives and optimized polysiloxane matrices will expand GC enantioselectivity to larger, more polar analytes. Integration with mass spectrometry and multidimensional GC promises enhanced structural elucidation and quantitation. High-throughput screening of chiral catalysts and biomarkers in complex matrices represent growing applications
Conclusion
Functionalized cyclodextrin capillary GC columns deliver robust, versatile enantioselective and positional isomer separations. By tailoring cyclodextrin type, phase composition, temperature and column geometry, analysts can achieve optimized performance across diverse sectors
References
- Gil-Av E., Feibush B., Charles-Sigler R. Tetrahedron Lett. 1966, 1009
- Schurig V., Nowotny H.-P. Angew. Chem. Int. Ed. Engl. 1990, 29, 939
- Keim W., Kohnes A., Meltzow W., Römer H. HRC 1991, 14, 507
- Mani V., Woolley C. LC-GC 1995, 14, 734
- Falconer R.L., Bidleman T.F., Gregor D.J., Semkin R., Teixeira C. Environ. Sci. Technol. 1995, 29, 1297
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
Similar PDF
Astec® CHIRALDEX® and Supelco® DEX™ - Chiral GC Columns
2013|Merck|Brochures and specifications
Astec® CHIRALDEX® and Supelco® DEX™ Chiral GC Columns The Widest Variety of Derivatized Cyclodextrins Stable, Derivatized Cyclodextrinbased Chiral GC Phases Twenty-four Different Phases Surface-interaction as well as Inclusion-dominant Phases
Supelco® Chiral GC Columns Chiral GC Columns from Sigma-Aldrich® Gas chromatography…
Key words
chiraldex, chiraldexastec, asteccyclodextrin, cyclodextrinchiral, chiralderivative, derivativepermethyl, permethylsupelco, supelcodex, dexcolumns, columnscyclodextrins, cyclodextrinsphases, phasesdimethylsiloxane, dimethylsiloxaneinclusion, inclusiondialkyl, dialkyldimethyl
Supelco Capillary GC Columns
2001|Merck|Technical notes
Bulletin 875C Supelco Capillary GC Columns Chemical structures, polarities, operating temperature ranges, and chemical compatibilities of Supelco™ generalpurpose capillary GC columns and columns for specific clinical, environmental, food/beverage, and petroleum/ chemical applications are summarized in this bulletin. This information should…
Key words
beta, betalength, lengthsupelco, supelcocolumn, columnphase, phasecapillary, capillarydescription, descriptioncolumns, columnsstationary, stationarymix, mixtest, testfused, fusedpolarity, polaritymixes, mixesvaporized
A Guide to the Analysis of Chiral Compounds by GC
1997|Restek|Guides
Technical Guide A Guide to the Analysis of Chiral Compounds by GC Inside: Definitions of Chirality and Chiral Chromatography Chiral Columns Offer Unique Selectivity Optimization of Chiral Separations Chiral Specific Applications of Essential Oils, Flavors, and Pharmaceuticals
2 A team…
Key words
chiral, chirallinalool, linaloolβdexcst, βdexcstβdexsm, βdexsmlinalyl, linalylenantiomeric, enantiomericenantiomers, enantiomersβdexse, βdexseβdexsa, βdexsacyclodextrin, cyclodextrinlimonene, limoneneresolution, resolutionβdexsp, βdexspcolumn, columntrans
Chiral Gas Chromatography of Citronellal, b-Citronellol and Linalool on a b-DEX™ 225 Column
1997|Merck|Applications
Application Note 114 Chiral Gas Chromatography of Citronellal, b-Citronellol and Linalool on a b-DEX™ 225 Column Our β-DEX 225 column separates many optical isomers that are poorly separated on other chiral columns. Using this column, we observed complete separation of…
Key words
enantioseparation, enantioseparationlinalool, linaloolcitronellol, citronellolcitronellal, citronellalenantiomeric, enantiomericbgr, bgrcyclodextrins, cyclodextrinsdex, dexfactor, factorselectivities, selectivitiesoligomers, oligomersmin, mincyclic, cyclicchiral, chiralcomposed
