Company Filing History:
Years Active: 2025
Title: The Innovations of Rodger A Dilla
Introduction
Rodger A Dilla is an accomplished inventor based in Akron, OH (US). He has made significant contributions to the field of polymer chemistry, particularly in the development of innovative materials for medical applications. His work focuses on creating biocompatible polymers that can be utilized in various advanced technologies.
Latest Patents
Rodger A Dilla holds a patent for the "Synthesis and characterization of well defined poly(propylene fumarate) and poly(ethylene glycol) block copolymers." This invention provides low molecular weight, non-toxic, resorbable poly(ethylene glycol) (PEG)-block-poly(propylene fumarate) (PPF) diblock copolymers and PPF-block-PEG-block-PPF triblock copolymers. These materials allow for hydration to form hydrogels with predictable material properties suitable for 3D printing and drug delivery applications. The use of continuous digital light processing (cDLP) hydrogels enables the photochemical printing of these copolymers into structures that exhibit a tenfold increase in elongation at break compared to traditional diethyl fumarate (DEF) based printing. Additionally, PPF-PEG-PPF triblock hydrogels have demonstrated biocompatibility in vitro across various engineered cell types.
Career Highlights
Rodger A Dilla is affiliated with the University of Akron, where he continues to advance his research in polymer science. His innovative work has garnered attention in the scientific community, contributing to the development of new materials that have practical applications in medicine and technology.
Collaborations
Rodger has collaborated with notable colleagues, including Matthew L Becker and James A Wilson. These partnerships have further enhanced the impact of his research and innovations in the field.
Conclusion
Rodger A Dilla's contributions to polymer chemistry and his innovative patent demonstrate his commitment to advancing technology in medical applications. His work continues to influence the development of biocompatible materials that hold promise for future applications.