Designing Frameworks with Advanced Magnetic and Electronic Functions
Modern technologies need compounds that respond to electric or magnetic signals with more advanced function than conventional materials. This includes relaxor ferroelectrics, which enable improved precision motors and ultrasound devices through their high susceptibility to polarisation, and multiferroics, in which ferroelectric and magnetic properties can couple, promising great advances in computer memory density. Recently Metal-Organic Frameworks (MOFs), in which cations are connected by an organic ligand into an extended structure, have attracted great attention for their ability to exhibit such functional properties by new routes. Projects are available in the Saines group examining the smart design of functional frameworks with greatly improved properties through an understanding of how these properties arise from their atomic structure, with the balance of focus on synthesis of new compounds and materials characterisation flexible to meet a student’s interests.
If you are interested in this self-funded project, please contact Dr Paul Saines.