High-speed ultracentrifuge for molecular and biochemical research
The Eppendorf CP90NX Ultracentrifuge is a high-performance, high-speed ultracentrifuge designed for precision sample separation in molecular biology, biochemistry, nanotechnology, and pharmaceutical research. Engineered for ultra-high centrifugal forces, the CP90NX ensures efficient and reliable fractionation of subcellular components, protein purification, and nanoparticle isolation.
Equipped with advanced rotor options, state-of-the-art temperature control, and intuitive digital controls, the CP90NX provides repeatable, high-accuracy results while maintaining sample integrity and stability under extreme conditions.
Advanced ultracentrifugation with temperature stability
The CP90NX features precision-controlled refrigeration technology, ensuring consistent cooling to protect heat-sensitive samples. Its programmable acceleration and braking functions allow users to fine-tune centrifugation protocols, making it ideal for research applications requiring meticulous separation techniques.
With automated imbalance detection, secure lid-locking mechanisms, and energy-efficient operation, this ultracentrifuge enhances laboratory workflow, safety, and productivity.
Key features of the Eppendorf CP90NX Ultracentrifuge
- Ultra-high-speed performance – Delivers fast and efficient molecular and biochemical sample separation.
- Advanced temperature regulation – Ensures consistent cooling for sensitive samples.
- Customizable rotor configurations – Supports various sample types and volume capacities.
- User-friendly touchscreen controls – Simplifies test setup, monitoring, and reporting.
- Enhanced safety features – Includes imbalance detection, auto-lock lid, and emergency stop functions.
- Regulatory compliance – Meets ISO and industry standards for ultracentrifugation.
Optimize laboratory efficiency with high-performance ultracentrifugation
The Eppendorf CP90NX Ultracentrifuge is a vital instrument for scientific laboratories requiring ultra-high-speed, temperature-controlled sample separation. With its precision engineering, customizable rotor options, and enhanced safety mechanisms, this system ensures efficient, reproducible results for research and clinical applications.
