Waters XEVO TQ-S MICRO
Brochures and specifications | 2016 | WatersInstrumentation
The accurate and sensitive quantification of analytes in complex matrices is critical for applications ranging from environmental monitoring to pharmaceutical analysis. Compact tandem quadrupole mass spectrometers that combine robustness with high throughput can significantly enhance laboratory efficiency and data reliability.
This study describes the design and performance characteristics of the Xevo TQ-S micro, a benchtop tandem quadrupole instrument optimized for ultra-sensitive multiple reaction monitoring (MRM). The goal is to evaluate its robustness, dynamic range, acquisition speed, and usability in routine quantitative workflows.
Instrument configuration employs proven ZSpray™ source geometry and StepWave™ ion optics for efficient removal of neutral species. The system integrates:
Software tools IntelliStart™ and TargetLynx XS™ streamline method setup, acquisition, and data processing. QUANPEDIA™ provides a searchable method database.
Robustness testing with 900 sequential injections of verapamil in plasma yielded 3.4% RSD in peak area, demonstrating long-term stability. MRM acquisition rates up to 500 transitions per second were achieved with less than 5% loss in peak area or height, enabling narrow chromatographic peak sampling. RADAR™ data acquisition allowed simultaneous targeted MRM and full-scan MS, revealing unexpected contaminants and enhancing method development. Product Ion Confirmation Scanning (PICs™) provided additional spectral confirmation without manual intervention.
Advancements in ion optics and detector technology may push acquisition speeds further, enabling real-time monitoring of rapid separations. Integration of AI-driven data analysis could automate anomaly detection and method optimization. Miniaturization and cloud connectivity will support remote operation and collaborative workflows.
The Xevo TQ-S micro delivers a balanced combination of sensitivity, speed, and robustness in a compact design. Its advanced ion transmission, high-rate MRM capability, and intuitive software make it an ideal platform for demanding quantitative analyses in regulatory, pharmaceutical, and environmental laboratories.
LC/MS, LC/MS/MS, LC/QQQ
IndustriesManufacturerWaters
Summary
Importance of the Topic
The accurate and sensitive quantification of analytes in complex matrices is critical for applications ranging from environmental monitoring to pharmaceutical analysis. Compact tandem quadrupole mass spectrometers that combine robustness with high throughput can significantly enhance laboratory efficiency and data reliability.
Objectives and Overview
This study describes the design and performance characteristics of the Xevo TQ-S micro, a benchtop tandem quadrupole instrument optimized for ultra-sensitive multiple reaction monitoring (MRM). The goal is to evaluate its robustness, dynamic range, acquisition speed, and usability in routine quantitative workflows.
Methodology and Used Instrumentation
Instrument configuration employs proven ZSpray™ source geometry and StepWave™ ion optics for efficient removal of neutral species. The system integrates:
- Xevo TQ-S micro tandem quadrupole mass spectrometer
- ACQUITY UPLC I-Class chromatography system
- StepWave™ collision cell with T-Wave technology
- Xcelerated Ion Transfer™ (XIT) electronics and Xtended Dynamic Range™ detector
- Optional ion sources: ESI, APCI, APPI, APGC, ESCi®
Software tools IntelliStart™ and TargetLynx XS™ streamline method setup, acquisition, and data processing. QUANPEDIA™ provides a searchable method database.
Main Results and Discussion
Robustness testing with 900 sequential injections of verapamil in plasma yielded 3.4% RSD in peak area, demonstrating long-term stability. MRM acquisition rates up to 500 transitions per second were achieved with less than 5% loss in peak area or height, enabling narrow chromatographic peak sampling. RADAR™ data acquisition allowed simultaneous targeted MRM and full-scan MS, revealing unexpected contaminants and enhancing method development. Product Ion Confirmation Scanning (PICs™) provided additional spectral confirmation without manual intervention.
Benefits and Practical Applications
- High sensitivity at low picogram levels reduces sample and solvent consumption.
- Compact footprint supports crowded laboratory benches.
- Fast polarity switching covers positive and negative analytes in a single run.
- Automated QC monitoring and trending ensure data integrity.
- Flexible source options adapt to a wide range of chemistries.
Future Trends and Possibilities
Advancements in ion optics and detector technology may push acquisition speeds further, enabling real-time monitoring of rapid separations. Integration of AI-driven data analysis could automate anomaly detection and method optimization. Miniaturization and cloud connectivity will support remote operation and collaborative workflows.
Conclusion
The Xevo TQ-S micro delivers a balanced combination of sensitivity, speed, and robustness in a compact design. Its advanced ion transmission, high-rate MRM capability, and intuitive software make it an ideal platform for demanding quantitative analyses in regulatory, pharmaceutical, and environmental laboratories.
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
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