Company Filing History:
Years Active: 2023
Title: The Innovative Mind of Dongfang Li
Introduction
Dongfang Li, an accomplished inventor based in Hong Kong, China, has made significant contributions to the field of microrobotics. With a portfolio of three patents, his work focuses on developing advanced technologies that harness the power of magnets for precise control and delivery of microagents.
Latest Patents
One of Dongfang Li's latest innovations is the patent for a Magnetically-drivable microrobot. This innovative method involves creating a microrobot body through the photo-curing of a specific material composition that includes degradable, structural, and magnetic components, along with a photo-curing facilitation composition. This microrobot is intended for the efficient carrying and delivery of cells.
Additionally, he has developed a patent titled "Methods and apparatus for microagent control." This method outlines a technique for controlling microagents within a designated workspace by deploying multiple magnetic sources. By activating these sources in differing sequences, a rotating gradient magnetic field is generated, creating a driving force that guides the microagent towards a central aggregation point.
Career Highlights
Dongfang Li is affiliated with the City University of Hong Kong, where he engages in groundbreaking research that merges science and engineering. His work exemplifies interdisciplinary collaboration, fostering advancements in medical applications and microengineering.
Collaborations
Throughout his career, Dongfang Li has collaborated with notable colleagues such as Dong Sun and Liuxi Xing. Their collective expertise and innovative approaches play a crucial role in enhancing the development of microrobotic technologies and related applications.
Conclusion
Dongfang Li stands out as a prominent inventor with a keen focus on microrobotics and microagent control technologies. His patents not only reflect his inventive spirit but also highlight the potential for future advancements in health and engineering fields through innovative applications of magnetically-driven systems.