Analysis of Fragrance Mix
Applications | 2023 | ShimadzuInstrumentation
Aroma and fragrance compounds play a pivotal role in the food, cosmetic and pharmaceutical industries. Accurate profiling ensures product consistency, quality control and regulatory compliance. Gas chromatography coupled with flame ionization detection (GC-FID) remains a gold standard for volatile and semi-volatile analytes due to its sensitivity, robustness and broad linear range.
This application note demonstrates the separation and quantification of a standard mix of twelve common fragrance ingredients. The goal is to establish a reliable GC-FID method capable of resolving esters, terpenes, phenols and aldehydes in a single run, simplifying routine quality assessment of flavor and fragrance formulations.
The analysis was performed on a GC system equipped with an FID detector. Key parameters included:
The method achieved baseline separation of all twelve analytes, including ethyl butyrate, limonene and vanillin. Retention times increased linearly with boiling point, demonstrating effective volatility discrimination. Peak shapes were sharp with minimal tailing, indicating optimal column selection and injection conditions. Reproducibility tests showed retention time RSD below 0.5% and area RSD under 2%.
• Simultaneous analysis of diverse compound classes in a single run reduces instrument time and resource use.
• FID offers universal response to hydrocarbons, ensuring reliable quantification without compound-specific calibration complexity.
• Method adaptability allows integration into QA/QC workflows for food, fragrance and cosmetic production.
Advances in column technology and detector sensitivity may shorten analysis times further. Coupling GC with mass spectrometry could enhance compound identification in complex matrices. Automation and online sampling will drive higher throughput in industrial settings.
This GC-FID method on the Shimadzu SH-1 column provides robust, reproducible separation of key fragrance ingredients. Its simplicity and performance make it ideal for routine quality control of flavor and fragrance products.
Shimadzu Corporation. Application Note ERAS-1000-0519, First Edition: Sep. 2023
GC, Consumables, GC columns
IndustriesFood & Agriculture
ManufacturerShimadzu
Summary
Importance of Topic
Aroma and fragrance compounds play a pivotal role in the food, cosmetic and pharmaceutical industries. Accurate profiling ensures product consistency, quality control and regulatory compliance. Gas chromatography coupled with flame ionization detection (GC-FID) remains a gold standard for volatile and semi-volatile analytes due to its sensitivity, robustness and broad linear range.
Objective and Study Overview
This application note demonstrates the separation and quantification of a standard mix of twelve common fragrance ingredients. The goal is to establish a reliable GC-FID method capable of resolving esters, terpenes, phenols and aldehydes in a single run, simplifying routine quality assessment of flavor and fragrance formulations.
Methodology and Instrumentation Used
The analysis was performed on a GC system equipped with an FID detector. Key parameters included:
- Column: Shimadzu SH-1 (60 m × 0.25 mm I.D., 0.25 µm film thickness)
- Temperature program: 50 °C initial, ramp at 3 °C/min to 270 °C
- Injection: 1.0 µL split (1:40) using a 4 mm inlet liner at 285 °C
- Carrier gas: Helium at 0.6 mL/min constant flow
- Detector: FID at 300 °C
Main Results and Discussion
The method achieved baseline separation of all twelve analytes, including ethyl butyrate, limonene and vanillin. Retention times increased linearly with boiling point, demonstrating effective volatility discrimination. Peak shapes were sharp with minimal tailing, indicating optimal column selection and injection conditions. Reproducibility tests showed retention time RSD below 0.5% and area RSD under 2%.
Benefits and Practical Applications
• Simultaneous analysis of diverse compound classes in a single run reduces instrument time and resource use.
• FID offers universal response to hydrocarbons, ensuring reliable quantification without compound-specific calibration complexity.
• Method adaptability allows integration into QA/QC workflows for food, fragrance and cosmetic production.
Future Trends and Potential Applications
Advances in column technology and detector sensitivity may shorten analysis times further. Coupling GC with mass spectrometry could enhance compound identification in complex matrices. Automation and online sampling will drive higher throughput in industrial settings.
Conclusion
This GC-FID method on the Shimadzu SH-1 column provides robust, reproducible separation of key fragrance ingredients. Its simplicity and performance make it ideal for routine quality control of flavor and fragrance products.
Reference
Shimadzu Corporation. Application Note ERAS-1000-0519, First Edition: Sep. 2023
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