This Set includes:
- (1) Agilent 7890B GC
- (1) JMS-Q1050GC Master-Quad GC/MS
- (1) Agilent G4513A Autoinjector
- (1) Agilent G4514A 7693A Autosampler with 150 position Tray
- (1) rough Pump
- (1) PC with data
Agilent 7890B GC
- Retention Time Locking (RTL) maintains exact retention times from injection to injection, column to column, instrument to instrument, and lab to lab
- Capillary Flow Technology (CFT) provides unique instrument capabilities, such as multi-dimension gas chromatography (GC-GC/Deans Switch), comprehensive two-dimension gas chromatography (GCxGC) with flow modulation, and backflush at the beginning, middle, or end of the analytical column
- Carrier Gas Options: Helium Conservation Module, Hydrogen Sensors and Alternate Carrier Gas Solutions dramatically reduce the amount of helium used to offer flexibility in your laboratory
- Large Valve Oven (LVO) allows for the combination of multiple methods and simplified maintenance
- Multimode inlet (MMI) serves as a programmable temperature vaporizing injector with flexible capabilities
- Agilent Inert Flow Path provides increased sensitivity for active compounds, from injection to detection
- Low Thermal Mass (LTM) modules, up to 4 installed and operating, increase sample throughput with rapid column heating and cooling
JMS-Q1050GC Master-Quad GC/MS
Features:
- Wide Dynamic Range : Responding to a wide range of sample concentrations
- High Sensitivity : Stable for a long period of time – High Evacuation Performance : Enabling analysis under severe acquisition conditions
- Maintainability : Fast and easy“Escrime” : Enabling to analyze a multi-component sample at one time.
- Extensive GC-MS solutions : Proposing a broad range of systems
When concentration difference of measuring materials contained in a sample is large, in some cases, changing the measurement conditions is required depending on the concentration difference. The JMS-Q1050GC equipped proudly with a largest sized hyperbolic-shaped quadrupole in this class has a large allowance in ion, as a result accomplishing a wide dynamic range for the amount of ions. This capability enables you to measure a sample without changing the measurement conditions depending on the concentration of a measuring material in the sample, manifesting its analysis power for a sample with a large concentration difference. In addition, the hyperbolic-shaped quadrupole has superb ion transmittivity, realizing enhanced sensitivity especially in high mass region. Furthermore, by controlling the temperature of the quadrupole unit with high precision, the m/z axis stability has been remarkably enhanced.