Company Filing History:
Years Active: 2025
Title: Ephraim Gabriel Morado: Innovator in Degradable Polymers
Introduction
Ephraim Gabriel Morado is a notable inventor based in Urbana, IL (US). He has made significant contributions to the field of degradable polymers, focusing on innovative solutions that address environmental concerns. His work emphasizes the importance of sustainability in material science.
Latest Patents
Morado holds a patent for "Degradable polymers and monomers therefor," which includes hydroxyacetal or hydroxyketal monomers. This invention outlines processes for their preparation and their application in producing degradable polymers. The technology aims to avoid the energy-intensive conditions typically required to degrade polyurethanes, generating new hydroxy-functional intermediates that can be repurposed or upcycled. This advancement allows materials like polyurethanes and melamines, which would otherwise end up in landfills, to have a second life. The incorporation of a photoacid generator into microcapsule core materials facilitates solid-state degradation of the microcapsule shell when triggered by UV light, enabling controlled release of beneficial agents.
Career Highlights
Morado is affiliated with the University of Illinois, where he continues to advance research in polymer science. His innovative approach to creating degradable materials has positioned him as a key figure in the field. His patent reflects a commitment to developing environmentally friendly solutions that can transform waste into valuable resources.
Collaborations
Morado has collaborated with esteemed colleagues such as Hsuan-Chin Wang and Steven C. Zimmerman. These partnerships have fostered a collaborative environment that enhances research and innovation in the field of degradable polymers.
Conclusion
Ephraim Gabriel Morado's work in degradable polymers represents a significant step towards sustainable material solutions. His innovative patent and collaborations highlight the potential for repurposing materials that would otherwise contribute to environmental waste.