Dynamic Headspace Analysis of Fragrance Products
Applications | | CDS AnalyticalInstrumentation
Dynamic headspace analysis is vital for characterizing volatile compounds in complex fragrance formulations
It ensures consistency in product aroma, batch-to-batch reproducibility and supports quality control
This study compares dynamic headspace sampling of microencapsulated fragrance strips against actual perfume samples
Key aims:
Samples were collected on Tenax traps via a CDS Analytical Model 6000 concentrator
Thermal desorption parameters:
Chromatographic conditions on a Hewlett-Packard 5890 GC with FID:
Chromatograms from the fragrance strip closely matched those of the actual perfume
Key observations:
This confirms that microencapsulated strips reliably release representative fragrance profiles
Potential developments include:
Dynamic headspace analysis using Tenax traps and thermal desorption offers a robust, reproducible approach for fragrance profiling and quality control
GC, HeadSpace
IndustriesOther
ManufacturerAgilent Technologies, CDS Analytical
Summary
Importance of Topic
Dynamic headspace analysis is vital for characterizing volatile compounds in complex fragrance formulations
It ensures consistency in product aroma, batch-to-batch reproducibility and supports quality control
Objectives and Study Overview
This study compares dynamic headspace sampling of microencapsulated fragrance strips against actual perfume samples
Key aims:
- Assess the representativeness of magazine fragrance strips
- Validate the sampling protocol on Tenax traps
- Demonstrate technique suitability for QC of fragrance products
Methodology and Instrumentation
Samples were collected on Tenax traps via a CDS Analytical Model 6000 concentrator
Thermal desorption parameters:
- Strip temperature: 80°C, purge with helium at 30 ml/min for 10 min
- Trap desorption: 250°C for 2 min, followed by bake at 290°C for 5 min
Chromatographic conditions on a Hewlett-Packard 5890 GC with FID:
- Column: SE-54, 30 m × 0.53 mm, splitless injection
- Oven program: 40°C (2 min), ramp at 8°C/min to 250°C, hold 2 min
Results and Discussion
Chromatograms from the fragrance strip closely matched those of the actual perfume
Key observations:
- Comparable retention times and peak patterns
- Effective trapping and transfer of target volatiles
This confirms that microencapsulated strips reliably release representative fragrance profiles
Benefits and Practical Applications
- Rapid QC testing for fragrance consistency
- Non-destructive sampling of promotional strips
- Comparative analysis of competing products
Future Trends and Applications
Potential developments include:
- Integration with mass spectrometry for compound identification
- Automation and high-throughput sampling systems
- Advanced trap materials for broader volatile capture
- Data analytics and machine learning for profile interpretation
Conclusion
Dynamic headspace analysis using Tenax traps and thermal desorption offers a robust, reproducible approach for fragrance profiling and quality control
Reference
- T. Wampler, W. Bowe, E. Levy. Splitless Capillary GC Analysis of Herbs and Spices. AL. Lab., October 1985.
- R. Marsili (Ed.). Techniques for Analyzing Food Aroma. Marcel Dekker, New York.
- T. Wampler, W. Bowe, E. Levy. Dynamic Headspace Analysis of Residual Volatiles in Pharmaceuticals. J. Chrom. Sci., 23 (1985) 64.
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
Similar PDF
Bulk Headspace Sampling - Apples and Oranges
|CDS Analytical|Applications
#63 APPLICATION NOTE #63 APPLICATIONS INFORMATION USING ADVANCED SAMPLE HANDLING TECHNOLOGY Bulk Headspace Sampling - Apples and Oranges Figure 2 shows the results for a Red Delicious apple sampled using the same method. For maximum sensitivity, the gas chromatograph was…
Key words
vessel, vesselsampling, samplingvolatiles, volatilesuncut, uncutbulk, bulkoranges, orangesheadspace, headspaceallowed, allowedapples, applescontacting, contactingbackflushed, backflushedobject, objecttenax, tenaxapplications, applicationsequilibrate
Dynamic Headspace Analysis of Food Volatiles Coffee and Tea
|CDS Analytical|Applications
#12a Dynamic Headspace Analysis of Food Volatiles Coffee and Tea Application Note Food & Flavor Author: T. Wampler Because the aroma and flavor of foods are due largely to volatile organic compounds, headspace analysis is very popular in food research…
Key words
chromatograms, chromatogramscompounds, compoundsfood, foodheadspace, headspacerefocused, refocuseddynamic, dynamicswept, sweptaccompanying, accompanyingconstantly, constantlycoffee, coffeetenax, tenaxorganics, organicsconcentrator, concentratoritself, itselftea
Dynamic Headspace of Citrus Peels
|CDS Analytical|Applications
Dynamic Headspace of Citrus Peels Application Note Food and Flavor Author: T. Wampler Headspace sampling of volatiles from food samples is a convenient way of introducing aroma constituents into a gas chromatograph. Traditional or “static” headspace techniques involve placing the…
Key words
peels, peelscryogenic, cryogenicrefocusing, refocusingbackflushed, backflushedpyroprobe, pyroprobecitrus, citrustenax, tenaxlimonene, limonenetrapped, trappedflavor, flavorespecially, especiallyheated, heatedambient, ambienttemp, tempheadspace
Residual Monomer in Poly Methyl Methacrylate Analysis using the CDS Model 6500 Autosampler
|Agilent Technologies|Applications
#65 APPLICATION NOTE #65 APPLICATIONS INFORMATION USING ADVANCED SAMPLE HANDLING TECHNOLOGY Residual Monomer in Poly Methyl Methacrylate Analysis using the CDS Model 6500 Autosampler 200000 180000 160000 140000 120000 100000 80000 60000 40000 20000 0 10 Time (min.) 20 30…
Key words
residual, residualcds, cdscontacting, contactingtenax, tenaxconcerning, concerningapplications, applicationsmethacrylate, methacrylatemonomer, monomerpoly, polypolymeric, polymericliterature, literaturedesorption, desorptionchamber, chamberinformation, informationdiameter
