Halogenated hydrocarbons - Separation of CFCs on a bonded porous polymer
Applications | 2011 | Agilent TechnologiesInstrumentation
CFCs and other halogenated hydrocarbons remain critical targets in environmental monitoring due to their high volatility, ozone-depleting potential and regulatory restrictions. Precise gas chromatography methods enable accurate quantification of very volatile chlorofluorocarbons (CFCs) in air and industrial emissions, supporting compliance and research into atmospheric chemistry.
This application note evaluates the separation performance of an Agilent PoraBOND Q bonded porous polymer column for seven common CFCs. The goal is to demonstrate baseline resolution, elution order and selectivity at low starting temperatures, and to compare performance with alternative plot columns.
The method employs capillary gas chromatography under the following conditions:
The PoraBOND Q column achieved clear separation of all seven analytes (CFC-143a, CFC-125, CFC-134a, CFC-134, CFC-1122, CFC-124, CFC-133a) without co-elution. Selectivity closely matches that of a PoraPLOT Q column, while avoiding the reversed elution issues and overlaps seen on CP-SilicaPLOT columns (notably between CFC-125/143a and CFC-1122/134a). Baseline resolution was maintained at 40 °C, demonstrating excellent retention for very volatile species.
This optimized GC method provides environmental laboratories with a reliable tool for regulatory monitoring of CFC emissions. The strong selectivity and resolution support accurate quantification at trace levels. The stable temperature program and robust FID detection simplify method transfer and routine QC checks.
Advances in capillary GC stationary phases may further improve separation of emerging halogenated greenhouse gases. Coupling porous polymer columns with mass spectrometry detection can enhance sensitivity and provide structural confirmation. Portable GC systems fitted with similar columns could enable on-site monitoring in remote or regulatory enforcement settings.
The Agilent PoraBOND Q column demonstrates effective separation of key CFCs under a moderate temperature program, matching or exceeding the performance of existing plot columns. This method supports precise environmental monitoring and regulatory compliance for volatile halogenated hydrocarbons.
GC, GC columns, Consumables
IndustriesEnvironmental
ManufacturerAgilent Technologies
Summary
Importance of the Topic
CFCs and other halogenated hydrocarbons remain critical targets in environmental monitoring due to their high volatility, ozone-depleting potential and regulatory restrictions. Precise gas chromatography methods enable accurate quantification of very volatile chlorofluorocarbons (CFCs) in air and industrial emissions, supporting compliance and research into atmospheric chemistry.
Objectives and Study Overview
This application note evaluates the separation performance of an Agilent PoraBOND Q bonded porous polymer column for seven common CFCs. The goal is to demonstrate baseline resolution, elution order and selectivity at low starting temperatures, and to compare performance with alternative plot columns.
Methodology and Used Instrumentation
The method employs capillary gas chromatography under the following conditions:
- Technique: GC-wide-bore
- Column: Agilent PoraBOND Q, 0.53 mm × 25 m, df = 10 μm
- Temperature program: 40 °C (5 min) to 220 °C at 10 °C/min
- Carrier gas: Helium at 35 kPa (0.35 bar)
- Injection: Split mode, 50 mL/min, injector temperature 250 °C
- Detection: Flame ionization detector at 250 °C
- Sample: 100 μL of a 1% vol CFC mix
Main Results and Discussion
The PoraBOND Q column achieved clear separation of all seven analytes (CFC-143a, CFC-125, CFC-134a, CFC-134, CFC-1122, CFC-124, CFC-133a) without co-elution. Selectivity closely matches that of a PoraPLOT Q column, while avoiding the reversed elution issues and overlaps seen on CP-SilicaPLOT columns (notably between CFC-125/143a and CFC-1122/134a). Baseline resolution was maintained at 40 °C, demonstrating excellent retention for very volatile species.
Benefits and Practical Applications
This optimized GC method provides environmental laboratories with a reliable tool for regulatory monitoring of CFC emissions. The strong selectivity and resolution support accurate quantification at trace levels. The stable temperature program and robust FID detection simplify method transfer and routine QC checks.
Future Trends and Potential Applications
Advances in capillary GC stationary phases may further improve separation of emerging halogenated greenhouse gases. Coupling porous polymer columns with mass spectrometry detection can enhance sensitivity and provide structural confirmation. Portable GC systems fitted with similar columns could enable on-site monitoring in remote or regulatory enforcement settings.
Conclusion
The Agilent PoraBOND Q column demonstrates effective separation of key CFCs under a moderate temperature program, matching or exceeding the performance of existing plot columns. This method supports precise environmental monitoring and regulatory compliance for volatile halogenated hydrocarbons.
References
- Agilent Technologies, Inc. Halogenated Hydrocarbons: Separation of CFCs on a Bonded Porous Polymer. Application Note, 2011.
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