Location History:
- Norfolk, VA (US) (2020 - 2022)
- Morrisville, NC (US) (2021 - 2022)
Company Filing History:
Years Active: 2020-2025
Title: Innovations of Nicholas Thayer
Introduction
Nicholas Thayer is an accomplished inventor based in Morrisville, NC (US). He has made significant contributions to the field of biopolymer technology, holding a total of seven patents. His work focuses on innovative methods for producing biopolymer fibers and scaffolds that have important applications in medical devices and tissue repair.
Latest Patents
One of Thayer's latest patents is for a method of producing a bundle of biopolymer fibers through microfluidic extrusion. This process involves dissolving biopolymer in acid within a closed container made of materials that are inert to both the acid and collagen. The solution is stirred and centrifuged to remove gas, after which it is placed into syringes that are mounted in a rotatable holder. The syringes extrude equal quantities of the degassed solution to create fibers, which are then gathered and dehydrated in a specialized bath. Another notable patent is for biopolymer scaffold implants and methods for their production. This patent describes compositions and blends of biopolymers and bio-acceptable polymers, utilizing benign solvent systems to create biocompatible scaffolds and surgically implantable devices that support the repair of soft tissue injuries.
Career Highlights
Thayer is currently employed at Embody, Inc., where he continues to develop innovative solutions in the field of biopolymers. His work has been instrumental in advancing technologies that enhance medical treatments and improve patient outcomes.
Collaborations
Thayer collaborates with talented individuals such as Michael P. Francis and Stella Petrova, contributing to a dynamic team focused on innovation and research in biopolymer applications.
Conclusion
Nicholas Thayer's contributions to biopolymer technology through his patents and work at Embody, Inc. highlight his role as a leading inventor in the field. His innovative methods for producing biopolymer fibers and scaffolds are paving the way for advancements in medical devices and tissue repair.