Dynamic Live Cell Observer

Compared with traditional observation methods, dynamic observation of live cells can show the process of cell growth and death more realistically, which is convenient for researchers to explore the biological mechanism of cells.
At the same time, the cell images stored by the dynamic observer can easily trace the cell growth status and establish a model of the cell growth curve with time.

Cat. No.	Specification	Unit	Price	Quantity
LCIS519895-01	Optical system: high-definition bright field transmission imaging	Each	Inquiry

Add to Cart

Product Description

Product Description

CV1000 can be placed in an incubator to replace the traditional microscope's photography and observation process. There is no need to move the cell samples out of the incubator. It can perform real-time dynamic monitoring, photography, measurement and analysis of cells, thereby improving the work efficiency of experimenters and the accuracy of data.

Features

· 3D samples, multi-layer shooting
CV1000 can acquire time-series images of samples at different heights in a single shooting task toprevent out-of-focus, 3D culture shooting, or 3D cell reconstruction.
· HD high-definition picture
CV1000 has customized high-definition imaging optical path and camera systems, in a standard microscope viewing angle down to 2K resolution, restore live cells real details.

Specifications

Objective magnification: 4×, 10×, 20× (choose one of three)
Light source system: collimated LED parallel light source
Working environment: 5~40°C, 20~95% humidity
Z-axis moving distance: 4×: 10mmm, 10×: 10mm, 20×: 7mm
Shooting time: ≤60 days
Host size: 180×180×140mm (L×W×H)
Image size: 3072×2048
Image format: JPG, PNG, TIFF
Video format: MP4
Culture container: culture bottle, well plate and other transparent general culture containers
Remote access: LAN
Multi-layer shooting layer number: ≤100 layers
Support: remote system upgrade

Applications

Application Description

Compared with the static shooting of ordinary optical microscopes, CV1000 can automate the shooting process and is used in common experiments such as cell proliferation, differentiation, migration, chemotaxis, killing, and tube formation. It can monitor and trace the cell growth status in real time and has a wide range of applications in organoid culture monitoring, tumor sphere proliferation monitoring, stem cell differentiation, immune response, 3D culture and other fields.