Company Filing History:
Years Active: 2022
Title: Innovations by Jiali Shen in Biomacromolecular Scaffold Materials
Introduction
Jiali Shen is an accomplished inventor based in Jiangsu, China. He has made significant contributions to the field of biomaterials, particularly in the development of scaffold materials for tissue repair and regeneration. His innovative work focuses on enhancing biocompatibility and biodegradability in biomacromolecular materials.
Latest Patents
Jiali Shen holds a patent for a "Catechol group modified biomacromolecular scaffold material and preparation method thereof." This invention discloses a preparation method that involves grafting a catechol-containing compound through amidation to obtain modified biomacromolecules. The process includes allowing dopamine to undergo oxidized self-polymerization in a weakly alkaline buffer solution to form polydopamine (PDA) particles with uniform size. The scaffold is created with three cross-linking structures, which include modified biomacromolecules, modified biomacromolecules/PDA, and biomacromolecules/PDA. The interactions between catechol groups and PDA particles, along with cross-linking using calcium ions, adipic dihydrazide, or genipin, enhance the scaffold's properties. The resulting material demonstrates excellent biocompatibility and biodegradability, promoting cell adhesion and showing promising applications in tissue repair and regeneration. Jiali Shen has 1 patent to his name.
Career Highlights
Jiali Shen is affiliated with Jiangnan University, where he conducts research and development in biomaterials. His work has garnered attention for its potential impact on medical applications, particularly in regenerative medicine.
Collaborations
Jiali Shen collaborates with notable colleagues, including Dongjian Shi and Zhuying Zhang, who contribute to his research endeavors.
Conclusion
Jiali Shen's innovative work in biomacromolecular scaffold materials represents a significant advancement in the field of tissue engineering. His contributions are paving the way for improved solutions in medical applications, particularly in tissue repair and regeneration.