Company Filing History:
Years Active: 2022
Title: Innovations of Simon Restrepo in Biocompatible Polymer Technology
Introduction
Simon Restrepo is an accomplished inventor based in Culver City, California. He has made significant contributions to the field of biocompatible polymers, particularly in the area of analyte detection. His innovative approach combines the principles of polymer chemistry with biological applications, showcasing the potential of his work in various scientific domains.
Latest Patents
Restrepo holds a patent for a method to generate biocompatible dendritic polymers for analyte detection with multimodal labeling and signal amplification. This patent describes a method to create dendritic biocompatible polymers from pairs of complementary dendritic nucleic acid monomers in a controlled manner, utilizing polymerization triggers. The resulting dendritic monomers consist of nucleic acids and an organic polymer capable of self-assembly. Each polymer contains approximately 200 dendrites that can be used to attach labels, constituting a biologically compatible signal amplification technology. This technology has the potential to reveal the presence of a wide variety of analytes, including specific nucleic acid molecules, small molecules, proteins, and peptides.
Career Highlights
Simon Restrepo is affiliated with the University of Southern California, where he continues to advance his research in polymer technology. His work has garnered attention for its innovative approach and practical applications in the detection of biological analytes.
Collaborations
Restrepo has collaborated with notable colleagues, including Scott E. Fraser and Joseph P. Dunham. These collaborations have further enriched his research and contributed to the development of his patented technologies.
Conclusion
Simon Restrepo's contributions to the field of biocompatible polymers exemplify the intersection of chemistry and biology. His innovative methods for analyte detection hold promise for advancements in various scientific and medical applications.