Solvents - Separation of glycols and diols
Applications | 2011 | Agilent TechnologiesInstrumentation
Reliable separation of glycols and diols is crucial for quality control and process monitoring in chemical, pharmaceutical, and materials research. These compounds often share similar physical properties, posing challenges for traditional analytical techniques. Gas chromatography offers high resolution and speed, addressing the need for accurate quantification.
This application note demonstrates a rapid GC method to resolve 13 glycols and diols in under 20 minutes using an Agilent CP-Select 624 CB column. The goal is to showcase the column’s selectivity and optimal conditions for routine solvent analysis.
The separation employed a wide-bore GC configuration with a temperature program from 50 °C to 200 °C at 10 °C/min. A 0.02 μL sample of a mixed solvent containing 13 glycols and diols was directly injected, using nitrogen as the carrier gas.
The optimized method achieved baseline resolution for all target analytes, including ethylene glycol, multiple butanediols, hexylene glycol, diethylene to tetraethylene glycol, trimethylolpropane, and other higher diols. The CP-Select 624 CB phase provided unique interactions that discriminated structural isomers. The fast temperature ramp and wide-bore setup produced sharp peaks and minimal run time.
Future work may involve coupling this GC method with mass spectrometry for enhanced detection, exploring hydrogen as an alternative carrier gas for faster separations, and implementing shorter or multi-dimensional columns to further reduce analysis time. Integration with automated workflows and LIMS will enhance throughput and data management.
The described GC method using the Agilent CP-Select 624 CB column offers a rapid, robust, and selective approach to separate a complex mixture of glycols and diols. Its efficiency and reproducibility make it well suited for industrial and research laboratories.
Agilent Technologies, Inc. Application Note A01417, Solvents Separation of Glycols and Diols, 31 October 2011.
GC, GC columns, Consumables
IndustriesEnergy & Chemicals
ManufacturerAgilent Technologies
Summary
Importance of Topic
Reliable separation of glycols and diols is crucial for quality control and process monitoring in chemical, pharmaceutical, and materials research. These compounds often share similar physical properties, posing challenges for traditional analytical techniques. Gas chromatography offers high resolution and speed, addressing the need for accurate quantification.
Aims and Study Overview
This application note demonstrates a rapid GC method to resolve 13 glycols and diols in under 20 minutes using an Agilent CP-Select 624 CB column. The goal is to showcase the column’s selectivity and optimal conditions for routine solvent analysis.
Methodology
The separation employed a wide-bore GC configuration with a temperature program from 50 °C to 200 °C at 10 °C/min. A 0.02 μL sample of a mixed solvent containing 13 glycols and diols was directly injected, using nitrogen as the carrier gas.
Used Instrumentation
- CP-Select 624 CB fused silica WCOT column (30 m × 0.53 mm, df = 3.0 μm; part no. CP7416)
- Wide-bore gas chromatograph
- Nitrogen carrier gas at 10 mL/min
- Direct injector at 250 °C
- Flame ionization detector at 250 °C
Main Results and Discussion
The optimized method achieved baseline resolution for all target analytes, including ethylene glycol, multiple butanediols, hexylene glycol, diethylene to tetraethylene glycol, trimethylolpropane, and other higher diols. The CP-Select 624 CB phase provided unique interactions that discriminated structural isomers. The fast temperature ramp and wide-bore setup produced sharp peaks and minimal run time.
Benefits and Practical Applications
- Complete separation in less than 20 minutes
- Minimal sample preparation with direct injection
- High reproducibility and robust performance
- Effective for QA/QC in solvent manufacturing
- Applicable to a wide range of glycol and diol mixtures
Future Trends and Possibilities
Future work may involve coupling this GC method with mass spectrometry for enhanced detection, exploring hydrogen as an alternative carrier gas for faster separations, and implementing shorter or multi-dimensional columns to further reduce analysis time. Integration with automated workflows and LIMS will enhance throughput and data management.
Conclusion
The described GC method using the Agilent CP-Select 624 CB column offers a rapid, robust, and selective approach to separate a complex mixture of glycols and diols. Its efficiency and reproducibility make it well suited for industrial and research laboratories.
Reference
Agilent Technologies, Inc. Application Note A01417, Solvents Separation of Glycols and Diols, 31 October 2011.
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