Triple Quadrupole GC-MS-MS NGCMS-100 operates optimally with a temperature range of 18 to 25 ℃. This unit supports advanced ion filtering with a 90° ion deflection system to reduce background noise. It is equipped with a dual turbomolecular vacuum system, which ensures long-term performance. Our system utilizes a non-cold point interface for efficient sample transfer. It has a hexapole collision cell that enhances ion separation and supports high-throughput MRM analysis.
$135,563.00
Specifications
| Working Ambient temperature | 18 to 25 ℃ |
| Working Humidity | 20 to 60% RH |
| Pumping speed | 65 m3/h |
| GC Sample volume | 0.1 μl to 250 μl |
| GC Sampling Accuracy | ± 0.01% |
| GC Sampling precision | RSD < 0.5% |
| GC Flow rate | 0 to 500 ml/min (N2), 0 to 1000 ml/min (He, H2) |
| GC Inlet temperature | 450 °C |
| GC Temperature control accuracy | ± 0.1 ℃ |
| GC Pressure range | 0 to 100 psi |
| GC Pressure control accuracy | ± 0.001 Psi |
| GC Heating rate | Up to 120 °C / min, typically 50 °C / min |
| MS Mass Analyzer | Triple quadrupole mass analyzer |
| MS Mass number range | 5 to 1100 amu |
| MS EI Ion source temperature | 150 °C to 350 °C |
| GC-MS interface temperature | 50 to 400 °C |
| MS Scan rate | up to 20,000 amu/s |
| MS Stability | < ± 0.1 amu / 24 hrs. |
| MS EI source ionization energy | 10 eV to 300 eV |
| MS Resolution | 0.4 to 3 amu (adjustable) |
| MS Detector | Pulse counting detectors |
| MS Sensitivity | MRM mode: 100 fg /µL OFN of 1µL, ≥ 15000:1 |
| MS Vacuum | Mechanical pump and dual inlet turbo molecular pump |
| Power supply | 220 ± 20 V AC, 10A, 50 Hz |
| Dimensions (L × W × H) | 1170 × 860 × 860mm |
| Weight | 140 Kg |
Features
Applications
Standard Accessories
Host machine for MS part
GC Customized host (inert injection port)
Overseas version MS accessory kit
Overseas version GC accessory kit
Adjustable operating table (617 × 508 × 180mm)
Vacuum mechanical pump
Optional Accessories
Liquid automatic sampler
Vial sample tray
Tuning solvent (OFN)
European standard adapter plug
European standard three-core power cord & length 2m
Capillary column
Ask Expert
FAQ for Triple Quadrupole GC-MS-MS NGCMS-100
1: What kind of analyses can the Triple Quadrupole GC-MS-MS NGCMS-100 perform?
It supports qualitative and quantitative analysis of trace-level compounds like pesticides, drug residues, and pollutants in complex matrices.
2: How is sample transfer efficiency maintained in Triple Quadrupole GC-MS-MS?
A non-cold point heat tracing interface maintains a consistent elevated temperature throughout the sample transfer pathway, eliminating cold spots where condensation or sample degradation might occur.
3: What type of collision cell is used in Triple Quadrupole GC-MS-MS NGCMS-100?
A hexapole axial acceleration collision cell is used to improve ion separation and reduce interference.
4: Does the Triple Quadrupole GC-MS-MS NGCMS-100 include data processing software?
Yes, it comes with Windows-based workstation software that includes automatic quantification, spectral database search, and offline processing.
5: What maintenance features does the Triple Quadrupole GC-MS-MS offer?
Triple Quadrupole GC-MS-MS offers user-friendly maintenance features, including cleanable pre- and post-quadrupoles, which help eliminate organic deposits and extend system life.
6: What types of samples can be analyzed using GC-MS-MS?
GC-MS/MS is suitable for volatile and semi-volatile organic compounds in liquid, solid, or gaseous samples.
7: Why is GC-MS-MS preferred for detecting trace-level compounds?
It is preferred because it offers high sensitivity, low detection limits, and the ability to eliminate matrix interferences, making it ideal for trace analysis.
8: Is GC-MS-MS easy to operate?
GC-MS-MS systems are user-friendly, featuring automated processes and intuitive software that simplify operation and enhance overall efficiency, even for complex analyses.
9: Can GC-MS-MS be used for quantitative analysis?
Yes, GC-MS-MS is widely used for both qualitative and quantitative analysis due to its precision and accuracy.
