Company Filing History:
Years Active: 2021
Title: Zhenjie Ding: Innovator in Shape Memory Polymers
Introduction
Zhenjie Ding is a prominent inventor based in Suzhou, China. He has made significant contributions to the field of materials science, particularly in the development of shape memory polymers. His innovative work has the potential to revolutionize various applications in smart materials.
Latest Patents
Zhenjie Ding holds a patent for the "Thermadapt shape memory polymer and application method thereof." This patent describes a preparation method for thermadapt shape memory polymers, which includes several key steps. The process involves the synthesis of pendant hydroxyl groups functionalized epoxy oligomer using epoxy resin and alcohol amine. Additionally, it includes the synthesis of alkoxyl groups terminated silane crosslinking agent by isocyanate silane coupling agent and diamine. The resulting crosslinked shape memory polymers exhibit high glass transition temperatures and high tensile strength. These polymers can be reconfigured to a new permanent shape as needed, effectively addressing the challenges of reprocessing traditional crosslinked polymers after molding. The thermadapt shape memory polymers are particularly suitable for smart materials that require complex three-dimensional permanent shapes, demonstrating unfolding or folding behaviors when subjected to heat stimulation.
Career Highlights
Zhenjie Ding is affiliated with Soochow University, where he continues to advance research in the field of materials science. His work has garnered attention for its innovative approach to solving practical problems in polymer technology.
Collaborations
Zhenjie Ding has collaborated with notable colleagues, including Aijuan Gu and Guozheng Liang. Their joint efforts contribute to the ongoing research and development in the area of shape memory polymers.
Conclusion
Zhenjie Ding's contributions to the field of shape memory polymers highlight his innovative spirit and dedication to advancing materials science. His work not only addresses existing challenges but also opens new avenues for future research and applications.