Retention Time Locking of Organochlorine Pesticides on an Agilent 8860 GC System Using the OpenLab Retention Time Locking Wizard
Applications | 2019 | Agilent TechnologiesInstrumentation
Reproducible retention times underpin reliable qualitative and quantitative analysis in environmental and food testing laboratories. Consistent chromatography simplifies calibration management, enhances throughput, and enables method transfer across instruments without revalidation.
This study evaluates the Agilent OpenLab CDS Retention Time Locking (RTL) wizard on an Agilent 8860 GC system for 20 organochlorine pesticides. Key goals include assessing retention time stability before and after simulated column maintenance and demonstrating the ease of method relocking.
The RTL workflow uses three injections of a standard containing 20 chlorinated pesticides at varying inlet pressures to generate a retention time versus pressure calibration. Heptachlor epoxide served as the locking compound. Method simulations included trimming 50 cm from the column to mimic maintenance. Instrumentation details
The GC achieved baseline separation of all 20 pesticides with retention time repeatability below 0.008% RSD. The RTL calibration showed an R2 of 0.999. After column trimming, peaks shifted by approximately 0.094 minutes, risking misidentification. Automatic adjustment of inlet pressure via the RTL wizard restored retention times within 0.003 minutes of original values, eliminating manual recalibration.
Implementing RTL reduces time spent on method revalidation after maintenance or across instruments. It ensures robust, transferable methods for routine food and environmental analysis, improving laboratory efficiency and data consistency.
Advances may include broader integration of RTL in multi-dimensional GC, coupling with mass spectrometry, and automated pressure optimization driven by machine learning. Expansion to other analyte classes can further streamline high-throughput analyses.
The combination of the Agilent 8860 GC and OpenLab RTL wizard offers a straightforward strategy to maintain retention time stability. The approach minimizes downtime, preserves method integrity after maintenance, and supports reproducible pesticide analysis.
GC
IndustriesFood & Agriculture
ManufacturerAgilent Technologies
Summary
Significance of the Topic
Reproducible retention times underpin reliable qualitative and quantitative analysis in environmental and food testing laboratories. Consistent chromatography simplifies calibration management, enhances throughput, and enables method transfer across instruments without revalidation.
Objectives and Study Overview
This study evaluates the Agilent OpenLab CDS Retention Time Locking (RTL) wizard on an Agilent 8860 GC system for 20 organochlorine pesticides. Key goals include assessing retention time stability before and after simulated column maintenance and demonstrating the ease of method relocking.
Methodology and Instrumentation
The RTL workflow uses three injections of a standard containing 20 chlorinated pesticides at varying inlet pressures to generate a retention time versus pressure calibration. Heptachlor epoxide served as the locking compound. Method simulations included trimming 50 cm from the column to mimic maintenance. Instrumentation details
- Agilent 8860 GC with split/splitless inlet and ECD
- Agilent DB-CLP1 column (30 m × 320 µm, 0.25 µm)
- OpenLab CDS RTL wizard
- Carrier gas: helium, constant flow 2 mL/min
- Oven program: 50 °C initial, ramp to 300 °C
Main Results and Discussion
The GC achieved baseline separation of all 20 pesticides with retention time repeatability below 0.008% RSD. The RTL calibration showed an R2 of 0.999. After column trimming, peaks shifted by approximately 0.094 minutes, risking misidentification. Automatic adjustment of inlet pressure via the RTL wizard restored retention times within 0.003 minutes of original values, eliminating manual recalibration.
Benefits and Practical Applications
Implementing RTL reduces time spent on method revalidation after maintenance or across instruments. It ensures robust, transferable methods for routine food and environmental analysis, improving laboratory efficiency and data consistency.
Future Trends and Applications
Advances may include broader integration of RTL in multi-dimensional GC, coupling with mass spectrometry, and automated pressure optimization driven by machine learning. Expansion to other analyte classes can further streamline high-throughput analyses.
Conclusion
The combination of the Agilent 8860 GC and OpenLab RTL wizard offers a straightforward strategy to maintain retention time stability. The approach minimizes downtime, preserves method integrity after maintenance, and supports reproducible pesticide analysis.
References
- Agilent Technologies. Organochlorine Pesticide Analysis Using an Agilent Intuvo 9000 Dual ECD GC System. Publication 5991-9000EN, February 2018
- Giarrocco V, Quimby B, Klee M. Retention Time Locking: Concepts and Applications. Agilent Technologies Publication 5966-2469E, December 1997
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