The Leica STELLARIS i5 is a next-generation confocal laser scanning microscope designed for high-resolution fluorescence imaging, live-cell imaging, 3D visualization, and quantitative biological analysis. The system combines spectral detection, photon-counting technology, super-resolution imaging, and fluorescence lifetime-based analysis to provide exceptional image quality and scientific insights.
Advanced confocal laser scanning microscopy (CLSM)
High-sensitivity Power HyD detectors with photon-counting capability
Spectral detection for multiplex fluorescence imaging
White Light Laser (WLL) excitation technology
LIGHTNING super-resolution imaging
TauSense fluorescence lifetime imaging tools
Motorized XY stage with automated image acquisition
3D and time-lapse imaging capabilities
Live-cell imaging support with environmental control options
LAS X software for image acquisition, analysis, and visualization
Cell and tissue imaging
Dental biomaterial characterization
Biofilm and microbial analysis
Surface morphology evaluation
Biomaterials and tissue engineering research
Fluorescence localization studies
Live-cell and developmental biology research
Protein interaction and molecular imaging
Pharmaceutical and biomedical research
Multi-channel fluorescence imaging
Simultaneous detection of multiple fluorophores
Spectral unmixing of overlapping fluorescent signals
Super-resolution imaging beyond conventional confocal limits
Fluorescence Lifetime Imaging (FLIM) support
3D reconstruction and volumetric analysis
Extended spectral detection range up to 850 nm
The Leica STELLARIS i5 is a next-generation confocal laser scanning microscope designed for high-resolution fluorescence imaging, live-cell imaging, 3D visualization, and quantitative biological analysis. The system combines spectral detection, photon-counting technology, super-resolution imaging, and fluorescence lifetime-based analysis to provide exceptional image quality and scientific insights.
Advanced confocal laser scanning microscopy (CLSM)
High-sensitivity Power HyD detectors with photon-counting capability
Spectral detection for multiplex fluorescence imaging
White Light Laser (WLL) excitation technology
LIGHTNING super-resolution imaging
TauSense fluorescence lifetime imaging tools
Motorized XY stage with automated image acquisition
3D and time-lapse imaging capabilities
Live-cell imaging support with environmental control options
LAS X software for image acquisition, analysis, and visualization
Cell and tissue imaging
Dental biomaterial characterization
Biofilm and microbial analysis
Surface morphology evaluation
Biomaterials and tissue engineering research
Fluorescence localization studies
Live-cell and developmental biology research
Protein interaction and molecular imaging
Pharmaceutical and biomedical research
Multi-channel fluorescence imaging
Simultaneous detection of multiple fluorophores
Spectral unmixing of overlapping fluorescent signals
Super-resolution imaging beyond conventional confocal limits
Fluorescence Lifetime Imaging (FLIM) support
3D reconstruction and volumetric analysis
Extended spectral detection range up to 850 nm