Improving Medical Wearables with Material Science
The University's collaboration with Integrated Graphene has significant implications for the future of medical wearables.
The University's collaboration with Integrated Graphene has significant implications for the future of medical wearables.
The use of creative art for explaining organic semiconductors Nedyalka Panova (artist-in-residence) | Organic Semiconductor Centre,School of Physics & Astronomy My work explores the boundaries between art and science,…
Prof. John T.S. Irvine, Dr Scott J. Lilley & Dr Stefan Saxin School of Chemistry The JTSI group investigates new materials for energy applications. We do this by studying the atomic structure of important chemicals…
Dr José A. Fuentes and Dr Matt L. Clarke School of Chemistry Catalysts are widely used to speed up chemical reactions without actually getting used up in the process. They are one of the core aspects of making greener…