Conventional flow cytometers have difficulty distinguishing fluorochromes with highly overlapping peak emissions, severely limiting fluorochrome choice and multiplexing capability, leading to misinterpretation of the result.

Using FSPTM where entire emission spectrum is captured across the different modules and then stitched together to create a spectral signature that combines emission information from all excitation wavelengths , Cytek systems can detect the entire fluorochrome emission, allowing researchers to use highly overlapping dyes together, to extract autofluorescence,to run panels of up to 40 colors and beyond without sacrificing data resolution.

No longer limited by the conventional peak emission bandpass filter paradigm, researchers can now visualize the full spectrum characteristics of each fluorochrome across each laser line, look for new spectrally unique reagents to integrate into continuously expanding panel designs and get more results in one experiment.

Cytek’s experience in designing highly multiparametric panels has led to a deeper understanding of how fluorochromes react together in increasingly complex fluorescent experiments. Using this expertise, Cytek developed and launched the new cFluor reagents, optimized for use in full spectrum panels.

Top applications:

• Immunophenotyping
• Cell Sorting
• Cell Cycle Analysis
• Cell Apoptosis
• Cell Proliferation
• Cell Signaling and Signal Transduction

NanoFCM provides a versatile and powerful platform — Flow NanoAnalyzer for the multiparameter analysis of individual extracellular vesicles (30-150 nm in diameter), the fluorescence of single phycoerythrin molecules can be well detected against the background. The Flow NanoAnalyzer platform enables quantitative and multiparameter analysis of single EVs down to 40 nm, which is distinctively sensitive, yet high-throughput, and shows great potential in liquid biopsy applications.

Flow NanoAnalyzer is expected to become a powerful tool for life science, nanoscience and nanotechnology studies. Flow NanoAnalyzer can be used for the multiparameter characterization of natural and synthetic nanoparticles (7-1000 nm) at the single-particle level, such as extracellular vesicles, mitochondria, bacteria, viruses, nanomedicine and naonomaterial. Combining light scattering and fluorescence detection, high-resolution distributions of particle size and biochemical properties can be acquired simultaneously in 1-2 minutes.