Company Filing History:
Years Active: 2022
Title: The Innovative Contributions of Inventor Tao Luo in Hong Kong
Introduction
Tao Luo is a remarkable inventor based in Hong Kong, China, known for his innovative contributions in the field of biological cell patterning. His work is pivotal in advancing technology related to cell manipulation and observation, which has significant implications for biomedical research and applications.
Latest Patents
Tao Luo holds a patent for an innovative apparatus and method for patterning biological cells. This patent outlines an advanced apparatus that features a fluidic structure with an outlet and multiple inlets. The design enables the effective flow of various biological cells in a cell suspension, facilitating the simultaneous observation of these cells in a predetermined pattern. This technology has the potential to enhance methodologies for coculturing biological cells, providing a sophisticated tool for researchers in the life sciences.
Career Highlights
Tao Luo is affiliated with the City University of Hong Kong, where he engages in cutting-edge research that intersects biology and engineering. His academic background and research expertise have positioned him as a key figure in innovations surrounding biological cells, contributing to the university's reputation for excellence in scientific research.
Collaborations
Throughout his career, Tao Luo has collaborated with esteemed colleagues including Dong Sun and Lei Fan. These collaborations have fostered a dynamic research environment, allowing for the exchange of ideas and the advancement of shared projects in the field of cell patterning and related technologies.
Conclusion
In conclusion, Tao Luo's contributions to the field of biological cell patterning exemplify the spirit of innovation. His patent showcases the potential for new methodologies that can significantly impact biological research. With his work at the City University of Hong Kong and collaborative efforts with other scholars, Tao Luo continues to push the boundaries of what is possible in the realm of cell manipulation and observation.