Understanding and optimising the microstructure of Germanium-Arsenic-Selenium glasses for superior device performance. The project will seek to use a combined theoretical and experimental approach to develop 'state of the art' optical glass materials for use in integrated nonlinear optical components. Such materials could be used as optical waveguides in broadband communication systems and offer the possibility of significant improvement in telecommunication performance.
Synthesis of novel phases from Group IV elements under extreme pressure. Materials based on the group IV elements carbon, silicon and germanium are technologically important for a wide range of current applications. When exposed to extreme pressure, these materials can form entirely new phases with novel and potentially useful properties. Since there have been few previous attempts to establish which of the new phases are stable on pressure release and to measure their properties for subsequent ....Synthesis of novel phases from Group IV elements under extreme pressure. Materials based on the group IV elements carbon, silicon and germanium are technologically important for a wide range of current applications. When exposed to extreme pressure, these materials can form entirely new phases with novel and potentially useful properties. Since there have been few previous attempts to establish which of the new phases are stable on pressure release and to measure their properties for subsequent exploitation, this project aims to use novel approaches to address these topics. The expected outcome of this project will be new phases of group IV elements with novel properties that have potential for commercial exploitation.Read moreRead less