Company Filing History:
Years Active: 2020
Title: Innovations of Fengqin He in Microparticle Research
Introduction
Fengqin He is an accomplished inventor based in Shanghai, China. She has made significant contributions to the field of microparticle research, particularly in the development of advanced imaging techniques. Her work focuses on understanding the dynamics of microparticles in liquid environments, which has important implications for various scientific and industrial applications.
Latest Patents
Fengqin He holds a patent for a "Synchronous high-speed photographing method and device for microparticle rotation in liquid cyclone field." This innovative method and device enable synchronous high-speed imaging of microparticle rotation in a liquid cyclone field. The technology utilizes a combination of a synchronous high-speed photographing system and a transparent microparticle containing two centrosymmetrically arranged inner cores of the same diameter. The method involves using these transparent microparticles as rotation test particles, capturing two-dimensional image series of their motion with orthogonally arranged high-speed digital cameras, and reconstructing their three-dimensional motion trajectories to determine their rotation velocities.
Career Highlights
Fengqin He is affiliated with the East China University of Science and Technology, where she continues to advance her research in microparticle dynamics. Her innovative approach to high-speed imaging has positioned her as a leader in her field. She has successfully combined her expertise in optics and fluid dynamics to create groundbreaking methodologies that enhance our understanding of microparticle behavior.
Collaborations
Fengqin He collaborates with notable colleagues, including Hualin Wang and Yuan Huang. Their combined expertise fosters a rich environment for innovation and research, contributing to the advancement of knowledge in microparticle dynamics.
Conclusion
Fengqin He exemplifies the spirit of innovation in the field of microparticle research. Her patented methods and collaborative efforts continue to push the boundaries of scientific understanding and technological advancement.