The Heraeus 75003348 microlitre rotor: precision, safety and performance for your small volumes
Designed to meet the rigorous requirements of molecular biology, microbiology and pharmaceutical research laboratories, the Heraeus 75003348 microlitre rotorstands out for its ability to combine high performance with maximum safety. It integrates perfectly with the Multifuge® 1 S and 1 S-R benchtop centrifuges, offering a powerful solution for the rapid separation of microvolumes while ensuring the protection of samples and operators.
This fixed-angle rotor, specifically designed for 1.5/2.0 ml tubes, can process up to 48 samples simultaneously. It is therefore ideal for users with high throughput requirements without compromising on accuracy. With a maximum rotation speed of 15,000 rpm and an RCF of up to 24,652 x g on the outer rim, the 75003348 rotor ensures fast and efficient sedimentation of even the finest particles.
The 45° angle of the rotor provides ideal tube orientation to optimise separation and prevent sample loss, while minimising stress on the walls. In addition, the robust rotor design ensures perfect stability even at full load and precise dynamic balancing, limiting vibrations and protecting the integrity of cells and biomolecules.
Safety is not overlooked: the 75003348 rotor is certified for aerosol-tight operation, an essential feature when processing hazardous biological materials. This design minimises the risk of cross-contamination and effectively protects personnel in the event of a tube breakage. It is also autoclavable, allowing regular disinfection under the most stringent laboratory conditions, with a heat resistance of up to 138°C.
This rotor is compatible with various types of reduction sleeves, allowing even smaller volumes such as 0.2 to 0.6 ml PCR tubes to be centrifuged. Its modular and scalable design meets the growing flexibility needs of modern laboratories. The Heraeus 75003348 microlitre rotor is an essential piece of equipment for all laboratories handling small volumes, offering an ideal combination of power, safety and efficiency.
