Company Filing History:
Years Active: 2002-2004
Title: Zhiming Li: Innovator in Electromagnetic Biochips
Introduction
Zhiming Li is a prominent inventor based in Xiamen, China. He has made significant contributions to the field of electromagnetic biochips, holding a total of 2 patents. His work focuses on the development of advanced technologies that enhance biochemical analysis and manipulation of biomolecules.
Latest Patents
One of Zhiming Li's latest inventions is the individually addressable micro-electromagnetic unit array chips. This invention provides electromagnetic chips and biochips that feature arrays of individually addressable micro-electromagnetic units. These chips are designed for the directed manipulation of micro-particles and micro-structures, including biomolecules and chemical reagents. An electromagnetic biochip consists of an individually addressable micro-electromagnetic unit chip with ligand molecules immobilized on its surface. By controlling the electromagnetic field at each unit of the array and combining this control with magnetic modification of biomolecules, these chips can be utilized for the directed manipulation, synthesis, and release of biomolecules. This innovation aims to increase the sensitivity of biochemical or chemical analysis while reducing assay time. Additional advantages of these chips include minimized damage to biological molecules and improved reproducibility of assay results.
Career Highlights
Zhiming Li is currently associated with Aviva Biosciences Corporation, where he continues to push the boundaries of research in electromagnetic biochips. His work has garnered attention for its potential applications in various scientific fields.
Collaborations
Zhiming has collaborated with notable coworkers, including Yuxiang Zhou and Litian Liu, contributing to advancements in their shared field of research.
Conclusion
Zhiming Li's innovative work in the development of electromagnetic biochips represents a significant advancement in the manipulation of biomolecules. His contributions are poised to enhance the efficiency and effectiveness of biochemical analyses in the future.