TQ8050 NX – GC-MS/MS

GCMS-TQ8050 Gas Chromatograph Mass Spectrometer

The Shimadzu single quadrupole GCMS-QP2020 NX gas chromatograph-mass spectrometer (GC-MS) is not only the highest performer in its class, but also the most efficient. This new high-end single-quad GCMS easily meets the ever-growing need for both ease of use and robustness. And, as the importance of high-performance analytical instruments for monitoring microscopic quantities of compounds related to environmental pollution, forensic applications and material and chemical development continues to grow, the efficient, reliable GCMS-QP2020 NX is a tailored fit for your laboratory.

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Features & Benefits

  • Enhanced sensitivity that detects ultra-trace concentrations not previously possible
  • Auto startup, shutdown, and tuning checks are performed automatically
  • Operation times for multiple functions are accurately determined using Active Time ManagementTM
  • Over five times longer maintenance life, ensuring that analysis is performed reliably over longer periods using standard maintenance items like: inserts, columns, and other consumables
  • Improved amplification performance, able to reliably detect ultra-trace femtogram-level quantities of ions

Hardware

  • Contamination-resistant ion source contributes to long service life.
  • Oil-free pump  requires minimal maintenance (maintenance-free for three years)

Performance

  • New turbomolecular pump with higher evacuation performance achieves a superior vacuum state in the MS unit. Result:  higher sensitivity and stability while improving analysis accuracy for ultra-trace concentration levels.
  • Simultaneously analyze samples using multiple modes, such as high-speed scanning and scan/MRM modes, via UFsweeper technology

Operation

  • Smart MRM technology accurately creates methods for ultra-trace analysis while ensuring high sensitivity for MRM measurements.
  • Enhanced accuracy control function powered  by LabSolutions Insight software improves reliability of data acquired from simultaneous multicomponent analysis of ultra-trace components