Company Filing History:
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1 out of 832,961 Years Active: 2020-2025
Title: Innovations of Inventor Sa Liu
Introduction
Sa Liu is a prominent inventor based in Guangzhou, China. He has made significant contributions to the field of materials science, particularly in the development of innovative polymer technologies. With a total of 3 patents, his work focuses on enhancing the properties of materials for medical applications.
Latest Patents
One of Sa Liu's latest patents is a hyaluronic acid-based zwitterionic polymer brush, which includes a preparation method and its various uses. This zwitterionic polymer brush is designed to delay the pathological progress of osteoarthritis and promote cartilage regeneration. It can also treat osteoarthritis and improve conditions related to the generation of abraded fragments of implants. The polymer brush selectively binds to proteins in cartilage, providing excellent lubricating effects. The invention boasts advantages such as a simple method, convenient operation, and high yield.
Another notable patent involves a method for improving the blood compatibility of material surfaces using a controllable grafting technique. This method includes a series of steps involving specific monomers and reagents to create a high-molecular polymer that enhances blood compatibility. The process is designed to be efficient and effective, ensuring high-quality results.
Career Highlights
Sa Liu has worked at the South China University of Technology, where he has contributed to various research projects and innovations. His academic background and research experience have played a crucial role in his development as an inventor.
Collaborations
Throughout his career, Sa Liu has collaborated with notable colleagues, including Li Ren and Yingjun Wang. These collaborations have enriched his research and led to significant advancements in his field.
Conclusion
Sa Liu's innovative work in polymer technology has the potential to greatly impact medical applications, particularly in treating osteoarthritis and improving material compatibility. His contributions continue to advance the field and inspire future research.