Robustness of the Agilent Ultivo Triple Quadrupole LC/MS With the ESI Source
Technical notes | 2019 | Agilent TechnologiesInstrumentation
The reliable detection of pesticide residues in complex food matrices is critical for consumer safety, regulatory compliance, and industrial quality control. Robust mass spectrometric performance under high-throughput conditions ensures consistent data integrity without frequent downtime for maintenance or retuning.
This study evaluated the long-term robustness of the Agilent Ultivo triple quadrupole LC/MS with an electrospray ionization source by performing 10,000 consecutive injections of pesticides spiked into a challenging black tea extract matrix. No cleaning or retuning was performed during the entire sequence to simulate rigorous routine screening conditions.
A model mixture of eight pesticides was prepared at 100 ng/mL in black tea extract diluted 1:5 with solvent. Samples were injected at 0.6 min/sample, achieving continuous operation for over four days. Key hardware innovations included the Cyclone Ion Guide, Vortex Collision Cell, and heated hyperbolic quadrupoles designed to resist matrix deposition.
Throughout 10,000 injections, peak area relative standard deviations for all pesticides remained at or below 10 % without internal standard correction. Visual inspection after completion revealed substantial tea pigment deposits around the spray shield and inlet, yet instrument performance remained stable. Slight chromatographic drift was attributed to guard column aging rather than MS instability.
Further developments may integrate automated matrix cleaning modules or real-time deposition monitoring to extend uptime. Adapting similar robustness features to other ionization methods and expanding to higher-mass analytes could broaden application in environmental, food safety, and pharmaceutical testing.
This evaluation confirms the Agilent Ultivo triple quadrupole LC/MS’s exceptional robustness for prolonged pesticide analysis in complex matrices. Advanced ion guide and cell designs effectively mitigate matrix-induced contamination, ensuring consistent quantitative performance over thousands of injections.
LC/MS, LC/MS/MS, LC/QQQ
IndustriesManufacturerAgilent Technologies
Summary
Importance of the Topic
The reliable detection of pesticide residues in complex food matrices is critical for consumer safety, regulatory compliance, and industrial quality control. Robust mass spectrometric performance under high-throughput conditions ensures consistent data integrity without frequent downtime for maintenance or retuning.
Objectives and Study Overview
This study evaluated the long-term robustness of the Agilent Ultivo triple quadrupole LC/MS with an electrospray ionization source by performing 10,000 consecutive injections of pesticides spiked into a challenging black tea extract matrix. No cleaning or retuning was performed during the entire sequence to simulate rigorous routine screening conditions.
Methodology and Instrumentation
A model mixture of eight pesticides was prepared at 100 ng/mL in black tea extract diluted 1:5 with solvent. Samples were injected at 0.6 min/sample, achieving continuous operation for over four days. Key hardware innovations included the Cyclone Ion Guide, Vortex Collision Cell, and heated hyperbolic quadrupoles designed to resist matrix deposition.
- LC system: Agilent 1290 Infinity autosampler and binary pump, InfinityLab Poroshell 120 EC-C18 column (3.0×50 mm, 2.7 µm) with guard column.
- Mobile phase: 80 % MeOH in water with 5 mM ammonium formate and 0.1 % formic acid, isocratic 50:50.
- MS parameters: ESI source, drying gas 350 °C at 11 L/min, nebulizer 60 psi, capillary 4,000 V (positive) and 4,500 V (negative).
- Software: Agilent MassHunter Acquisition and Quantitative Analysis.
Main Results and Discussion
Throughout 10,000 injections, peak area relative standard deviations for all pesticides remained at or below 10 % without internal standard correction. Visual inspection after completion revealed substantial tea pigment deposits around the spray shield and inlet, yet instrument performance remained stable. Slight chromatographic drift was attributed to guard column aging rather than MS instability.
Benefits and Practical Applications
- High sample throughput with minimal downtime enhances laboratory efficiency.
- Stable sensitivity and quantitative precision even with dirty matrices support reliable screening.
- Reduced maintenance needs lower operational costs and risk of data interruption.
Future Trends and Possibilities
Further developments may integrate automated matrix cleaning modules or real-time deposition monitoring to extend uptime. Adapting similar robustness features to other ionization methods and expanding to higher-mass analytes could broaden application in environmental, food safety, and pharmaceutical testing.
Conclusion
This evaluation confirms the Agilent Ultivo triple quadrupole LC/MS’s exceptional robustness for prolonged pesticide analysis in complex matrices. Advanced ion guide and cell designs effectively mitigate matrix-induced contamination, ensuring consistent quantitative performance over thousands of injections.
References
- Agilent Technologies, Technical Overview 5994-0671EN, January 30, 2019.
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