Analysis of Amines & Phenols
Applications | 2023 | ShimadzuInstrumentation
Analysis of amines and phenols is essential in environmental monitoring, food safety, and chemical manufacturing due to their toxicity and regulatory constraints. Reliable detection methods enable compliance with safety standards and ensure product quality.
This study demonstrates a robust gas chromatography method using a SH-5 Amine column coupled to an FID detector to separate and quantify a range of aliphatic and aromatic amines and phenols at trace levels.
The separation was performed on a GC system equipped with a SH-5 Amine column (30 m × 0.32 mm I.D., 1.0 μm film thickness, P/N 227-36290-01). The oven program started at 120 °C, ramping at 10 °C/min to 220 °C. Samples (13 analytes at 22 ng on-column) were injected (1 μL) in split mode (1:25) at 305 °C. Hydrogen carrier gas flowed at 38 cm/s (at 120 °C). The FID was operated at 305 °C with a sensitivity of 6.4×10^-11 AFS.
The method achieved baseline separation of all target compounds, including volatile amines (e.g., diethylamine, pyridine) and phenolic derivatives (e.g., phenol, 2-nitrophenol). Peak shapes were symmetrical, with sufficient resolution to distinguish structurally similar species. The detection limit of 22 ng on-column ensures trace-level quantification.
Integration with mass spectrometry or two-dimensional GC could further enhance sensitivity and structural identification. On-line sampling and automation will streamline workflows for complex matrices. Emerging stationary phases may improve selectivity for closely related isomers.
The presented GC-FID method using an SH-5 Amine column offers a straightforward, sensitive, and reproducible approach for the analysis of amines and phenols, meeting the demands of environmental and industrial laboratories.
Shimadzu Corporation. Application Note ERAS-1000-0420, First Edition, March 2023
GC, Consumables, GC columns
IndustriesEnvironmental
ManufacturerShimadzu
Summary
Significance of the Topic
Analysis of amines and phenols is essential in environmental monitoring, food safety, and chemical manufacturing due to their toxicity and regulatory constraints. Reliable detection methods enable compliance with safety standards and ensure product quality.
Objectives and Study Overview
This study demonstrates a robust gas chromatography method using a SH-5 Amine column coupled to an FID detector to separate and quantify a range of aliphatic and aromatic amines and phenols at trace levels.
Methodology and Instrumentation
The separation was performed on a GC system equipped with a SH-5 Amine column (30 m × 0.32 mm I.D., 1.0 μm film thickness, P/N 227-36290-01). The oven program started at 120 °C, ramping at 10 °C/min to 220 °C. Samples (13 analytes at 22 ng on-column) were injected (1 μL) in split mode (1:25) at 305 °C. Hydrogen carrier gas flowed at 38 cm/s (at 120 °C). The FID was operated at 305 °C with a sensitivity of 6.4×10^-11 AFS.
Main Results and Discussion
The method achieved baseline separation of all target compounds, including volatile amines (e.g., diethylamine, pyridine) and phenolic derivatives (e.g., phenol, 2-nitrophenol). Peak shapes were symmetrical, with sufficient resolution to distinguish structurally similar species. The detection limit of 22 ng on-column ensures trace-level quantification.
Benefits and Practical Applications
- No derivatization is required, simplifying sample preparation.
- Wide applicability across environmental, food, and industrial matrices.
- High throughput using standard GC-FID instrumentation.
- Reproducible and robust performance for routine quality control.
Future Trends and Potential Applications
Integration with mass spectrometry or two-dimensional GC could further enhance sensitivity and structural identification. On-line sampling and automation will streamline workflows for complex matrices. Emerging stationary phases may improve selectivity for closely related isomers.
Conclusion
The presented GC-FID method using an SH-5 Amine column offers a straightforward, sensitive, and reproducible approach for the analysis of amines and phenols, meeting the demands of environmental and industrial laboratories.
Reference
Shimadzu Corporation. Application Note ERAS-1000-0420, First Edition, March 2023
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