Phenols
Applications | 2011 | Agilent TechnologiesInstrumentation
Phenolic compounds are common environmental pollutants and industrial intermediates whose accurate quantification is critical for environmental monitoring, process control, and quality assurance. Rapid and reliable separation of multiple phenols enables laboratories to meet regulatory requirements and improve throughput.
This application note demonstrates a gas chromatographic method using a CP-Sil 19 CB column paired with flame ionization detection (FID) to achieve baseline separation of 12 phenolic analytes within 15 minutes. The focus is on method simplicity, speed, and reproducibility.
The procedure employs the following instrumentation and conditions:
The optimized isothermal method achieved complete resolution of 12 phenols, including phenetol, phenol, ortho-cresol, mixed cresols, xylenols, and ethylphenols, in a runtime of 15 minutes. Peak elution order and retention times demonstrate the selectivity of the CP-Sil 19 CB stationary phase for aromatic alcohols. Chromatograms showed sharp peaks with minimal tailing and reproducible retention times over multiple injections.
• Rapid analysis suitable for high-throughput environmental and industrial laboratories
• Simple isothermal protocol reduces instrument programming errors and maintenance
• FID provides robust, universal detection of organic phenolic compounds
• Applicable to wastewater analysis, process streams, and quality control of phenolic resins
Advances in phenol analysis may include coupling to mass spectrometric detectors for enhanced selectivity, development of ultra-fast temperature ramps to shorten runtimes, miniaturized GC systems for field testing, and integration with automated sample preparation for on-line monitoring.
The described GC-FID method on an Agilent CP-Sil 19 CB column offers a fast, reliable, and easy-to-implement solution for the simultaneous analysis of multiple phenols. Its robustness and reproducibility make it a valuable tool for environmental testing and industrial quality assurance.
Agilent Technologies, Inc. Phenols Application Note. A01953. First published prior to 11 May, 2010; printed 31 October 2011.
GC, GC columns, Consumables
IndustriesEnvironmental
ManufacturerAgilent Technologies
Summary
Importance of Phenol Analysis
Phenolic compounds are common environmental pollutants and industrial intermediates whose accurate quantification is critical for environmental monitoring, process control, and quality assurance. Rapid and reliable separation of multiple phenols enables laboratories to meet regulatory requirements and improve throughput.
Objectives and Study Overview
This application note demonstrates a gas chromatographic method using a CP-Sil 19 CB column paired with flame ionization detection (FID) to achieve baseline separation of 12 phenolic analytes within 15 minutes. The focus is on method simplicity, speed, and reproducibility.
Methodology and Instrumentation
The procedure employs the following instrumentation and conditions:
- Gas chromatograph with FID
- Column: Agilent CP-Sil 19 CB, 0.32 mm × 25 m, 0.4 μm film thickness
- Oven temperature: 80 °C isothermal
- Carrier gas: Hydrogen at 70 kPa
- Injector: Split mode 1:20 at 200 °C
- Detector: FID at 300 °C
- Sample: 1 μL injection of ~2 % phenol mixture in acetone
Main Results and Discussion
The optimized isothermal method achieved complete resolution of 12 phenols, including phenetol, phenol, ortho-cresol, mixed cresols, xylenols, and ethylphenols, in a runtime of 15 minutes. Peak elution order and retention times demonstrate the selectivity of the CP-Sil 19 CB stationary phase for aromatic alcohols. Chromatograms showed sharp peaks with minimal tailing and reproducible retention times over multiple injections.
Benefits and Practical Applications
• Rapid analysis suitable for high-throughput environmental and industrial laboratories
• Simple isothermal protocol reduces instrument programming errors and maintenance
• FID provides robust, universal detection of organic phenolic compounds
• Applicable to wastewater analysis, process streams, and quality control of phenolic resins
Future Trends and Opportunities
Advances in phenol analysis may include coupling to mass spectrometric detectors for enhanced selectivity, development of ultra-fast temperature ramps to shorten runtimes, miniaturized GC systems for field testing, and integration with automated sample preparation for on-line monitoring.
Conclusion
The described GC-FID method on an Agilent CP-Sil 19 CB column offers a fast, reliable, and easy-to-implement solution for the simultaneous analysis of multiple phenols. Its robustness and reproducibility make it a valuable tool for environmental testing and industrial quality assurance.
Reference
Agilent Technologies, Inc. Phenols Application Note. A01953. First published prior to 11 May, 2010; printed 31 October 2011.
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
Similar PDF
Phenols
2011|Agilent Technologies|Applications
Phenols Application Note Materials Testing & Research Authors Introduction Agilent Technologies, Inc. Gas chromatography using an Agilent CP-Sil 43 CB column separates 14 phenols in about 50 minutes.
Conditions Peak identification Technique : GC-capillary Column : Agilent CP-Sil 43 CB,…
Key words
phenols, phenolsprinted, printedinjector, injectorusa, usaresearch, researchtesting, testingauthors, authorstechnique, techniquecarrier, carrieridentification, identificationmaterials, materialsdetector, detectornote, notepeak, peaktemperature
Phenols and cresols - Separation of isomers and aromatic alcohols on a chiral capillary column
2011|Agilent Technologies|Applications
Phenols and cresols Separation of isomers and aromatic alcohols on a chiral capillary column Application Note Environmental Authors Introduction Agilent Technologies, Inc. The Agilent CP-Chirasil-Dex CB column is not only suited for the separation of optical isomers, but has also…
Key words
chirasil, chirasilcresols, cresolsdex, dexphenols, phenolschiral, chiralcolumn, columncourtesy, courtesyalcohols, alcoholsseparation, separationisomers, isomersaromatic, aromaticsuited, suitedprinted, printedinjector, injectorusa
PAHs and phenols
2011|Agilent Technologies|Applications
PAHs and phenols Application Note Environmental Authors Introduction Agilent Technologies, Inc. Gas chromatography with an Agilent CP-Wax 52 CB column separates 19 polyaromatic hydrocarbons and phenols in 22 minutes.
Conditions Technique : GC-capillary Column : Agilent CP-Wax 52 CB, 0.25…
Key words
phenols, phenolscourtesy, courtesypahs, pahsprinted, printedinjector, injectorusa, usaauthors, authorsenvironmental, environmentalsize, sizetechnique, techniquecarrier, carrieridentification, identificationdetector, detectornote, notepeak
Analysis of Free Volatile Phenols in Smoke-Impacted Wines by SPME
2021|Agilent Technologies|Applications
Application Note Food Testing and Agriculture Analysis of Free Volatile Phenols in Smoke-Impacted Wines by SPME Authors Jessica Westland and Vanessa Abercrombie Agilent Technologies, Inc. Abstract Ever since the 2003 wildfires in Australia and British Columbia, smoke impact has been…
Key words
smoke, smokecresol, cresolwine, wineguaiacol, guaiacolgrapes, grapesspme, spmephenols, phenolsnoir, noirpinot, pinotimpact, impactfranzia, franzialoq, loqvolatile, volatilefree, freerelative
