Atomic-scale characterisation of Li battery materials
Transmission electron microscopy (TEM) is now capable of imaging individual atoms in materials, and electron spectroscopy data can provide atomic-scale information about the elements present and the nature of the bonding. Oxford Materials is one of the leading departments in high-precision quantitative measurements of materials using these methods. These methods have great potential for measuring structure and local chemistry to explain the performance of Li battery materials and to guide their development. The big challenge, however, is that the materials used are very sensitive to damage due to the illuminating electron beam. The aim of this project is to make use of methods recently developed in Oxford to maximise the amount of information gained from the microscope for the minimum electron irradiation. In particular, the recently developed method of electron ptychography (somewhat related to holography) can provide very sensitive measurements of Li and O atoms with three-dimensional information available. This will allow, for example, the positions of Li and O atoms in an electrode to be determined at various stages of the charge and discharge cycle of a battery. The project is suitable for someone interested in applying state-of-the-art atomic resolution electron microscopy to an important and rapidly developing class of materials.
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