ChroZen GC – A precise solution for complex chromatographic analyses
The ChroZen GC is the result of more than 30 years of expertise in the development of chromatographic systems by Young In Chromass. This model stands out for its ergonomics, analytical precision and stability. It is designed for laboratories requiring stable performance, consistent sensitivity and optimal ease of use.
Its 10.1-inch colour touchscreen LCD allows direct, visual control of all modules (injectors, detectors, oven). In addition to displaying the chromatography in real time, the interface provides intuitive access to temperature monitoring and thermal programming. The system is compatible with a wide variety of international methods such as ASTM D1945, D2163, D4815 and D8071, ensuring versatility in the food, environmental, petrochemical and pharmaceutical fields.
The ChroZen GC incorporates UPC (Ultimate Pneumatic Control) technology, guaranteeing pressure stability (≤ ±0.002 psi) and flow stability (≤ ±0.001 mL/min) despite temperature variations. This stability maintains reproducible retention times (standard deviation < 0.0008 min) and surfaces (RSD < 0.5%) across all injections.
The pulsed pressure mode (Split/Splitless) significantly improves sensitivity by limiting sample dispersion during injection. Coupled with an ultra-fast cooling system (from 450 °C to 50 °C in less than 3.8 minutes), it reduces analysis time and increases productivity. The use of hydrogen as a carrier gas is made safe by an optional leak detector, improving speed and resolution without compromising safety.
For specific applications, modules such as backflush, 2D GC and heart-cut are available, increasing column lifetime and result clarity. The ChroZen GC also accepts a wide range of detectors: FID, TCD, μTCD, NPD, PDD, μECD, FPD, PFPD, PID, VUV and MS, making it adaptable to almost any analytical requirement.
In addition, it can be coupled with sample preparation systems such as purge and trap, thermal desorbers (ATD) or pyrolysers to cover all needs from sampling to analysis.
