Material: Made from USP Class VI standard polypropylene, manufactured in a 100,000-level cleanroom.
Seal: Unique sealing structure with dual-way insurance to ensure tightness.
Universal Size: Fits most standard centrifuges.
Thickened Design: The conical bottom is thickened to increase the maximum centrifugation limit.
Clear Graduations: Clearly marked for easy data reading.
Temperature Resistance: Can withstand temperatures from -80°C to 120°C.
MAX RCF: Maximum relative centrifugal force of 7500 × g.
Non-pyrogenic, non-endotoxic, non-cytotoxic.
Free from DNA/RNA enzymes and human DNA.
Sterilization: Irradiation sterilization with SAL of 10-6.
Product Applications
Cell Separation: In cell culture, centrifuge bottles are commonly used to separate adherent cells or to isolate cells from suspension.
Bacterial Collection: Used in molecular biology and microbiology experiments to centrifuge and collect bacterial cultures.
Precipitate Concentration: Due to their conical design, precipitates concentrate at the tip of the bottle bottom during centrifugation, facilitating subsequent processing and analysis.
Sample Clarification: After tissue homogenization or cell lysis, conical bottom centrifuge bottles are used to remove insoluble particles and clarify the sample.
High-Speed Centrifugation: For applications requiring high-speed centrifugation, such as separation and purification of virus particles, plasmid DNA, exosomes, etc.
Large-Scale Sample Processing: Large-capacity conical bottom centrifuge bottles are suitable for processing larger sample volumes, such as in protein expression and purification processes.
Low-Temperature Centrifugation: Centrifugation at low temperatures to precipitate proteins or other biomolecules.
Automation Compatibility: Some conical bottom centrifuge bottle designs are compatible with automated systems, such as automated liquid handling systems.
Quality Control: Used in the quality control process of biopharmaceuticals and cell therapy products to ensure the purity and concentration of samples.