CORDIS Project
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This project explores topologically active polymers that can change their structure over time, inspired by DNA's dynamic alterations. By designing and experimenting with these polymers, the project aims to create materials that respond to specific proteins, potentially leading to innovative applications in various fiel…
Synthetic and biological polymers are everywhere, they make up a wide range of materials, from every-day plastics to living cell.
The study of how polymers behave in solution is a well-established research field that allows the informed design of commercial products, from plastics to rocket propellant.
Most of the polymers used in everyday applications have a fixed structure that cannot be changed in time and this assumption lies at the heart of classic polymer physics.
In this project, I propos…
THE UNIVERSITY OF EDINBURGH
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