-
- All Centrifuges
- Benchtop Centrifuges
- Floor-Standing Centrifuges
- Refrigerated Centrifuges
- Microcentrifuges
- Multipurpose Centrifuges
- High-Speed Centrifuges
- Ultracentrifuges
- Concentrator
- IVD Products
- High-Speed and Ultracentrifuge Consumables
- Centrifuge Tubes
- Centrifuge Plates
- Device Management Software
- Sample and Information Management
-
- All Pipettes, Dispensers & Automated Liquid Handlers
- Mechanical Pipettes
- Electronic Pipettes
- Multi-Channel Pipettes
- Positive Displacement Pipettes & Dispensers
- Pipette Tips
- Bottle-Top Dispensers
- Pipette Controllers
- Dispenser & Pipette Accessories
- Automated Pipetting
- Automation Consumables
- Automation Accessories
- Liquid Handler & Pipette Services
Eppendorf & Science Prize for Neurobiology
Eppendorf and Science/AAAS established this international prize in 2002. It acknowledges the increasing importance of Neurobiology in advancing our understanding of how the brain and nervous system function. It is awarded annually to one young scientist for the most outstanding neurobiological research based on experimental methods of molecular, cellular, systems, or organismic biology conducted by him/her during the past three years.
About this prize
Prize money: 25,000 USD
Additional benefits:
- The prize winner‘s essay is published in Science and on Science Online
- The prize is announced and presented at a ceremony in conjunction with the Annual
- Meeting of the Society for Neuroscience. Eppendorf provides full support to attend this event
- Besides the grand prize winner the jury may appoint up to three finalists each year
Read more
Eppendorf & Science Prize Winner 2025
Congratulations to Cheng Lyu, Ph.D., Postdoctoral Fellow at the University Stanford, California, USA, on winning the 2025 Eppendorf & Science Prize.
Dr. Lyu won the Prize for his work on rewiring the olfactory neural circuit in fruit flies, which alters the animal’s courtship behavior.
Cheng Lyu’s research uncovered how the fly’s olfactory circuit reduces a seemingly intractable 3D wiring problem into simpler 1D choices. By systematically tracing, quantifying, and perturbing neuron development across many cell types, Cheng and his colleagues revealed that partner selection occurs along constrained trajectories, greatly simplifying the molecular codes for specificity.
Read more
Meet the awardees
Read more
Videos not loading, because cookies have been rejected. Change your
