New carbon phases synthesized under extreme conditions. This project aims to address one of the major fundamental puzzles in carbon science; how to experimentally synthesize new phases of carbon predicted by theory. This could be approached via a combination of high pressure and high-energy ion irradiation to transform novel nano-carbon precursors. The expected outcomes include new phases of carbon with unexplored properties, an understanding of the pathways for synthesis of carbon materials, an ....New carbon phases synthesized under extreme conditions. This project aims to address one of the major fundamental puzzles in carbon science; how to experimentally synthesize new phases of carbon predicted by theory. This could be approached via a combination of high pressure and high-energy ion irradiation to transform novel nano-carbon precursors. The expected outcomes include new phases of carbon with unexplored properties, an understanding of the pathways for synthesis of carbon materials, and new computational tools to understand nano-carbon materials under extreme conditions. This should provide benefits for industries seeking advanced materials for modern manufacturing.Read moreRead less
Exciton-mediated room-temperature superconductivity . Superconductivity is the ability of an electronic material to conduct electrical current without resistance. This property underpins many existing and proposed technological applications, ranging from medical imaging to low-energy electronics and quantum computing. In this project, we aim to demonstrate a highly unconventional route towards superconductivity at room temperature and atmospheric pressure, by exploiting collective behaviour of e ....Exciton-mediated room-temperature superconductivity . Superconductivity is the ability of an electronic material to conduct electrical current without resistance. This property underpins many existing and proposed technological applications, ranging from medical imaging to low-energy electronics and quantum computing. In this project, we aim to demonstrate a highly unconventional route towards superconductivity at room temperature and atmospheric pressure, by exploiting collective behaviour of excitons (electron-hole pairs in a semiconductor) strongly coupled to photons. This research should help to overcome the biggest challenge for the widespread applications of superconductors: the very low temperature or extreme pressure that the superconducting materials need to function.Read moreRead less