LI-COR Odyssey CLx Imager: Precision and Versatility for Your Analyses
The LI-COR Odyssey CLx Imager embodies the future of digital imaging in scientific research. This cutting-edge device uses solid-state laser diodes emitting at 685 nm and 785 nm, enabling imaging in the infrared spectrum. This technology reduces autofluorescence and light scatter, ensuring crystal-clear images and thus improving the quality and reliability of experimental results.
Equipped with silicon avalanche photodiode detectors, the Odyssey CLx offers exceptional sensitivity and optimal precision for a variety of applications. Its variable resolution, adjustable between 21 and 337 µm, allows for precise adaptation to the specificities of each sample. Whether you're working on protein gels, DNA gels, or tissue sections, this imager guarantees unparalleled analysis quality.
One of the major advantages of the Odyssey CLx is its great flexibility. It can accommodate a wide range of sample formats, such as microplates, microscope slides, and tissue sections. Its large imaging area significantly improves analysis efficiency by allowing the simultaneous scanning of up to 6 microplates, 30 microscope slides, or 9 mini-blots—a considerable advantage for laboratories looking to maximize their productivity.
The Odyssey CLx is compatible with a wide range of applications, covering key techniques in molecular and cellular biology. It is particularly suited for infrared fluorescence Western blotting, in-cell and on-cell Western blotting, protein arrays, DNA and protein gels, tissue section imaging, and ELISA. This versatility makes it an essential tool for researchers working in diverse fields, from fundamental biology to biomedical applications.
In addition to its technical performance, the Odyssey CLx was designed for ease of use in laboratories. Its intuitive interface and analysis options allow researchers to save time and achieve reproducible results with minimal effort.
The LI-COR Odyssey CLx Imager represents an innovative and powerful solution for laboratory imaging. Combining precision, flexibility, and efficiency, it offers a tailored solution to the needs of researchers, whether they are studying proteins, DNA, or biological tissues. Thanks to its cutting-edge technology, it represents a strategic investment for any team looking to improve the quality and reliability of its analyses.