A light weight, low-cost and easily transportable centrifuge that does not require electric power to operate. Background: Centrifugation is a common technique generally used in the laboratory or in the field to separate biological samples, such as blood. Standard benchtop mini-centrifuges are powered by an electrical outlet and are heavy, in part, because of the metallic components of the electrical motor. Mini centrifuges are also expensive to produce due to the multiple components required to secure a heavy spinning rotor and the necessity of a correspondingly heavy shield to protect user from flying debris in case of rotor failure. Another issue is their reliance on the source of electricity to operate at many clinical trial sites or remote regions. Thus there is a need for a micro centrifuge that is light weight, easily transportable for use in remote areas and does not employ electrical power. Technology Overview: Researchers at Stony Brook University (SBU) have developed a light-weight, air-powered centrifuge (APC) that consists of only a few parts: a turbine rotor, a bearing, a platform, and a tubing connected to a nozzle on a platform. The APC can reach >4000 rpm and can be powered by a compressed air canister, hence portable. Stage of Development: Prototype available. Advantages: Applications: - Low-cost solution to table-top centrifugation in research and teaching laboratories - Centrifugation in field research where electrical power is not available #8911 Intellectual Property Summary: Patent application submitted Stage of Development: Provisional application covering the invention and their use has been filed. Licensing Potential: Licensing Status: Additional Information: centrifuge,separate,biologicals,biological sample,turbine,portable,laboratory equipment,portable laboratory,field-portable,portable device,lab equipment,on-site laboratory services,laboratory device,bench-top equipment,bench scale,field sample,in-field,separation technology,biological samples,biological analysis,sample analysis,test equipment,research equipment,science equipment,equipment design,sediment separation,rotary https://stonybrook.technologypublisher.com/files/sites/7dmcerosvmtnpx6ebqdc_working_in_analytical_chemistry_5.jpg Please note, header image is purely illustrative. Source: Martin Schaier, Wikimedia Commons, CC BY 4.0.