Biography
2017 - present : Senior Birmingham Fellow, School of Metallurgy and Materials, University of Birmingham, UK
2012 - 2017 : Winton Advanced Research Fellow, Cavendish Laboratory, University of Cambridge, UK
2009 - 2012 : Post-doctoral Research Assistant, Condensed Matter and Materials Physics Group, University College London, UK, Working with Prof. C. J. Pickard.
2006 - 2009 : PhD, Theory of Condensed Matter Group, Cavendish Laboratory, University of Cambridge, UK
Thesis "A Stochastic Approach to Condensed Matter Theory", Supervisor. Prof. R. J. Needs.
2002 - 2006 : M.Phys. in Thoeretical Physics, University of York, UK
Research
I am a computational physicist working in theoretical materials discovery. I am interested in modelling energy materials such as Li-ion batteries and nuclear-waste encapsulation ceramics.
“Trial and error” plays a large part in the discovery of new materials. From the initial idea, the material must be synthesised and categorised before it can tested which is slow, difficult and expensive. High-throughput computation accelerates this process by suggesting then screening new materials, allowing us to ask “what if?” without the time and expense of manufacturing and categorizing samples. I model Li-ion batteries at the atomic level and try to uncover new materials to increase their capacity.
I use global search techniques such as ab initio random structure searching (AIRSS) to predict the ground-state structure of materials. From the ground state we use theoretical spectroscopy techniques to compare our results to experiment. As a junior developer of the electronic structure code CASTEP I develop tools for optics, electron-energy loss spectroscopy (EELS) and core-loss analysis through the OptaDOS code. I use and modify CASTEP-NMR to calculate the chemical shielding of battery materials in collaboration with experimentalists.
I am based in the Physics Department with strong links to the Chemistry Department and am currently looking for PhD and Part III project students.