Product description
Product Name: Benchtop High-Speed Centrifuge (Refrigerated or Ventilated Model)
Key Features and Specifications
| Feature Category | Specification |
| System Type | Benchtop Centrifuge |
| Max Speed (RPM) | High Speed (Typically 15,000 RPM to 30,000 RPM) |
| Max RCF (g) | High Centrifugal Force (Typically 20,000 x g to 65,000 x g) |
| Capacity | Low to Medium Throughput (e.g., 6 x 50 mL or 30 x 1.5/2.0 mL tubes) |
| Rotor Types | Compatible with multiple angle and swing-out rotors |
| Temperature Control | Refrigerated models available (Crucial for temperature-sensitive materials like polymers or biological components) |
| Control System | Microprocessor control with digital display for speed, time, and RCF |
| Safety Features | Automatic rotor imbalance detection, lid lock, and protective guard ring |
Product Summary
The Benchtop High-Speed Centrifuge is a critical piece of Precision Instrumentation used across chemical, materials science, and life science laboratories. It utilizes powerful centrifugal force to rapidly and efficiently separate liquid mixtures based on the density of their components.
Operating at high rotational speeds, this centrifuge is essential for applications requiring the efficient sedimentation of fine particles, such as nanoparticles, catalysts, and biological cells, enabling superior separation and purification of your research materials.
Primary Applications
Materials Chemistry & Functional Surfaces:
Nanoparticle Separation: Isolating and purifying fine particles, such as carbon nanotubes, quantum dots, or polymer micro-beads, from synthesis solutions.
Catalyst Recovery: Efficiently separating powdered catalysts (like Vulcan XC-72 supported catalysts) from liquid reaction media for cleaning and recycling.
Polymers & Biomaterials:
Polymer Fractionation: Separating polymers by molecular weight or removing unreacted monomers.
Suspension Preparation: Clarifying and concentrating viscous polymer solutions or stable suspensions before characterization.
Biochemical / Life Sciences (General Lab Use):
Cell Harvesting: Efficiently pelleting microbial cells (bacteria, yeast) or mammalian cells from culture media.
Subcellular Fractionation: Separating organelles, proteins, or nucleic acids in preparatory biochemistry protocols.
Configuration and Ordering
Rotor Versatility: We offer a selection of fixed-angle rotors for maximum RCF and efficient pelleting, and swing-bucket rotors for separation in larger volumes and density gradients.
Refrigeration: Choose a refrigerated model for applications where temperature regulation is vital to maintain the integrity of sensitive materials or prevent phase changes in chemical processes.
Expert Support: Our team can assist in selecting the correct rotor and RCF setting to achieve optimal separation efficiency for your specific material or particle size.
