Thermo Scientific™ Dionex™ ICS-4000 Integrated Capillary HPIC™ System
The Dionex ICS-4000 capillary HPIC™ system delivers best-in-class sensitivity, from routine analyses to your most demanding application challenges. The high-pressure capability brings a new level of resolution and speed to dedicated capillary ion chromatography, while integrated design of the Dionex ICS-4000 simplifies your workflow and increases your analytical efficiency and productivity. Capillary IC provide…
Environmental Waters
Same quality results as our ICS-900 but much faster analysis times.
Review Date: 9 Jul 2015 | Thermo Fisher Scientific
The Dionex ICS-4000 capillary HPIC™ system delivers best-in-class sensitivity, from routine analyses to your most demanding application challenges.
The high-pressure capability brings a new level of resolution and speed to dedicated capillary ion chromatography, while integrated design of the Dionex ICS-4000 simplifies your workflow and increases your analytical efficiency and productivity.
Capillary IC provides 24/7 uptime so the system is always ready. The compact integrated system provides convenience and offers detection choices for application versatility.
Dionex ICS-4000 HPIC System Features:
- Single channel, integrated and compact design for dedicated analysis
- Capillary HPIC provides 24/7 uptime – so it’s always ready to generate results
- Configured for Reagent-Free IC for performance and Just Add Water simplicity
- The integrated IC Cube uses same consumables as the Dionex ICS-5000, so methods developed on the Dionex ICS-5000 can be transferred to the Dionex ICS-4000
- The active thermal control provides stability and reproducibility
- Touch display for stand-alone control
- Thermo Scientific Dionex Chromeleon 7.3.1 CDS for full system control and data processing
Benefits:
- Optimized separations for fast throughput
- High-pressure capability for high chromatographic resolution
- True on-request IC analysis for 24/7 uptime with no equilibration
- Small dead volumes for minimized peak dispersion and increased signal-to-noise ratio