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The infrared microscopic imaging technology currently commercially available on the market has a resolution of 50-100 micrometers (μm) and is limited in the study of high-resolution microscopic imaging of the internal structure of cells.
The research team has used the most advanced infrared microscopy technology in the world, combined with infrared spectrometer technology, to successfully increase the resolution to 70 nanometers (nm) and increase it by nearly 1,000 times, which means that high-resolution microscopy imaging technology for human tissue cells has been realized. The breakthrough can effectively observe the internal biochemical evolution process of cells. For example, breakthroughs in new technologies can contribute to the early diagnosis of diseases such as Alzheimer's disease and lung cancer, and can also help further study of emerging nanomaterials such as graphene (100 nm) and lead selenide semiconductors (100 nm).
The scientific research team has successfully developed a prototype of a nanometer infrared microscope imager that is more compact, easier to operate, and faster. Expected main application areas: materials science, biochemistry, cytopathology and cell molecular biology, can also be applied to the quality inspection of industrial products, such as the detection of functional textiles for antibacterial textiles and biometal implants.
(Original title: EU Scientists Breakthrough Nanoscale High Definition Infrared Microscopy Imaging Technology)
The European Union has successfully developed a prototype of a nanometer infrared microscope imager
[China Instrument Network Instrument R&D] The EU's seventh R&D framework plans to provide 4.15 million euros in funding, with a total research and development investment of 5.5 million euros. LANIR research will be composed of interdisciplinary scientific and technical personnel from six EU member states: Ireland, Italy, France, Germany, Belgium and Romania. The team successfully broke through nano-scale high-definition infrared microscopic imaging technology.