Company Filing History:
Years Active: 2019
Title: Innovations of Shuo Diao in Near-Infrared Confocal Microscopy
Introduction
Shuo Diao is an accomplished inventor based in Jilin, China. He has made significant contributions to the field of microscopy, particularly through his innovative work on near-infrared confocal microscopy. His research focuses on enhancing imaging techniques that can penetrate biological tissues more effectively than traditional methods.
Latest Patents
Shuo Diao holds a patent for a near-infrared-II confocal microscope and methods of use. This invention discloses methods and devices for confocal microscopy utilizing near-infrared wavelengths. The device incorporates a near-infrared light source, optical components designed to reflect and transmit near-infrared light from a sample, and an NIR detector connected to a computer for constructing focal plane images from raster scans. The detector can be a photodiode or photo-multiplier tube, which detects fluorescence signals in the near-infrared wavelength range of 800-1700 nm. This imaging method allows for slice-by-slice 3D imaging of biological tissues up to a thickness of approximately 5 mm, significantly improving tissue penetration compared to conventional imaging techniques.
Career Highlights
Shuo Diao is affiliated with Leland Stanford Junior University, where he continues to advance his research in microscopy. His work has garnered attention for its potential applications in biological imaging and diagnostics. The innovative nature of his inventions positions him as a key figure in the field of optical imaging.
Collaborations
Shuo Diao has collaborated with notable researchers, including Guosong Hong and Alexander Antaris. These collaborations have further enriched his research and contributed to the development of advanced imaging technologies.
Conclusion
Shuo Diao's contributions to near-infrared confocal microscopy represent a significant advancement in imaging technology. His innovative patent and ongoing research continue to push the boundaries of what is possible in biological imaging.