Professor Rachel O'Reilly
Winner: 2020 Corday-Morgan Prize
University of Birmingham
For creative and comprehensive syntheses of functional, self-assembling polymeric materials.
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I welcome the big asks, because the way to address these is through mentoring and encouraging talented young scientists – and contributing to the development of the scientific community.
Professor O’Reilly’s work studies the functions and processes of polymers – extended and sometimes complex chains of different molecules – with the aim of producing novel advanced materials, often trying to reproduce the form and action found in nature. The architecture of polymers is as important as their constituent ‘ingredients’, and polymers that have evolved in nature include carbohydrates, proteins and nucleic acids that are the constituent parts of every living thing. Humans have generally only been able to create simpler synthetic polymers such as PVC, nylon, and Teflon.
Professor O’Reilly’s research aims to create new highly-engineered materials, that self-assemble as a result of attractant or repellent properties possessed by different parts of the chain components, or that can produce controlled release or cascade reactions, such as seen in commercially-available ‘slow-release’ vitamins. Creating nanoparticles for effective and highly-targeted drug delivery is also an important part of the O’Reilly Group research, such as their part in a European research project to promote the growth of neural stem cells in the brain. Creating materials that react to heat or to light in specific ways, such as fluorescing in the presence of particular compounds, can have applications in healthcare and in ensuring human safety in difficult working environments.
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