Imagine you could image live cells as close as possible to their native state. Capture even faint fluorescent signal you currently miss. And discover what happens in the time between two subsequent images. Imagine you could get a better view of what really happens in cells!
The Leica DFC9000 sCMOS camera will turn your imagination into reality. This monochrome microscope camera with newest scientific CMOS (sCMOS) sensor technology for fluorescence imaging enables you to image your cells under near-native conditions.
Protect your cells with short exposure times
Capture highly dynamic processes with high-speed acquisition
Get more information in one image with large field of view
Every photon counts
The Leica DFC9000 is built with a third-generation sCMOS sensor, currently state-of-the-art on the market. It performs with a quantum efficiency* of up to 82%.
Capture even the faintest, previously undetected fluorescence signals
See processes in the cell in the most realistic detail without unhealthy overexpression of the GFP-coupled protein
Reduce exposure times to a minimum
Protect your cells, reducing stress, and minimizing phototoxicity effects
Generate more reliable results with happy GFP-expressing cells
Protect your cells with high near-infrared sensitivity
Use red-emitting fluorescence tags to further reduce cell damage
Observe your cells with an outstanding spectral response of more than 60% quantum efficiency at 750 nm wavelength
Life in the fast lane
What happens in the time between the acquisition of two subsequent images? Until now, this has been a study in guesswork.