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Hyperspectral Imaging Technology
Hyperspectral imaging is an emerging technology that combines traditional imaging and spectroscopy to obtain and analyze a large amount of spectral and spatial information from real scenes in the form of three-dimensional images. It has been widely used in the safety inspection and quality control of various food production.
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Nanoparticles Imaging
Nanoparticle generally refers to a particle with a size ranging from 1 to 100 nm, which is a powerful tool for molecular imaging due to their intrinsic unique magnetic or optical properties, and they can be applied to various imaging modalities.
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Single Molecule Fluorescence Imaging
Single-molecule fluorescence imaging technology is to label molecules of interest with fluorescent dyes, and then image and analyze them with fluorescence microscope. It can be used to study the structure of single molecules and their functions in physiological activities.
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Immunofluorescence technology
Immunofluorescence technology is to label the fluorescent pigment that does not affect the activity of antigen and antibody on the antibody (or antigen), combine it with its corresponding antigen (or antibody), and show a specific fluorescence reaction under the fluorescence microscope.
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Imaging Flow Cytometry
Imaging flow cytometry combines single-cell imaging capabilities of microscopy with the high-throughput capabilities of conventional flow cytometry, and flow cytometry is remarkably revolutionizing single-cell analysis.
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High Content Imaging
High content imaging uses automated microscopy, fluorescence detection, and multi-parameter algorithms to visualize and quantify therapeutic drug interactions in cell populations. It can detect changes in disease-related cells to help your early detection work.
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