The core advantages of this inverted laser microscope lie in its multi-wavelength laser excitation system, which supports synchronous imaging of up to 4 fluorescent markers without spectral crosstalk. It adopts a high-numerical-aperture objective lens group, which can clearly capture tiny structural details of samples with a resolution of 0.2μm. The closed optical path design effectively reduces the interference of external environmental light, ensuring the stability of imaging results. In addition, it is equipped with professional image analysis software that can automatically quantify cell count, fluorescence intensity and three-dimensional structure reconstruction, effectively solving the pain points of traditional manual analysis which is time-consuming and prone to subjective errors.
The main specifications include: overall dimensions of 850mm (length) × 650mm (width) × 450mm (height), net weight of 85kg, power input of 100-240VAC 50/60Hz, maximum power consumption of 1200W. It is equipped with 6-position objective lens turret supporting objective lenses ranging from 5x to 100x oil immersion lens. The confocal pinhole can be steplessly adjusted from 20μm to 50μm, and the Z-axis scanning range is 0-1000μm. The imaging sensor adopts a 10-megapixel cooled CCD, and the support software is compatible with Windows 10/11 and Linux operating systems.
This product is mainly suitable for life science research scenarios such as cell culture observation, fluorescent immunohistochemistry analysis, 3D tissue structure reconstruction, and real-time live cell imaging. It is widely used in university biology departments, biomedical research institutions, pharmaceutical company R&D centers and other fields. For example, researchers can use it to observe the migration process of immune cells in real time, or quantitatively analyze the expression level of specific proteins in tumor cells, providing important technical support for basic medical research and new drug development.
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