Company Filing History:
Years Active: 2023
Title: Ki-Hee Song: Innovator in Spectroscopic Microscopy
Introduction
Ki-Hee Song is a prominent inventor based in Evanston, IL (US). She has made significant contributions to the field of microscopy, particularly through her innovative methods that enhance the capabilities of spectroscopic imaging. Her work is instrumental in advancing the understanding of light-emitting materials at the molecular level.
Latest Patents
Ki-Hee Song holds a patent for a method of microscopy titled "Spectroscopic single-molecule localization microscopy." This method involves collecting emission light and symmetrically dispersing it into first order and negative first order light using a grating. The first order light contains spectral information, while the negative first order light also comprises spectral information. The process includes capturing both types of light using a camera, localizing light-emitting materials based on localization information from both spectral images, and determining spectral information from these images. This innovative approach allows for simultaneous localization and spectral information acquisition.
Career Highlights
Ki-Hee Song is affiliated with Northwestern University, where she continues to push the boundaries of research in microscopy. Her work has garnered attention for its potential applications in various scientific fields, including biology and materials science. With 1 patent to her name, she exemplifies the spirit of innovation that drives scientific progress.
Collaborations
Ki-Hee Song has collaborated with notable colleagues, including Cheng Sun and Hao F Zhang. These partnerships have enriched her research and contributed to the development of advanced microscopy techniques.
Conclusion
Ki-Hee Song's contributions to the field of microscopy through her innovative patent demonstrate her commitment to advancing scientific knowledge. Her work not only enhances our understanding of molecular interactions but also paves the way for future innovations in imaging technology.