Dr Xiao Hua
LecturerResearch Overview
My work centres on understanding the structure-property relationships of novel materials for energy storage and conversion. I have particular expertise in the use of operando pair distribution function (PDF) measurements, together with the development and application of structure modelling and big-data approaches to extract detailed mechanistic information from these measurements.
My scientific focus is on elucidating the role of complex structures (e.g. nanostructured, defected, and disordered systems) on the functional response of key energy materials. Using the insight gained, my research aims to develop better materials for various energy applications, such as rechargeable batteries, photovoltaic devices, and heterogeneous catalysis.
Atomic structure study of energy storage materials via in-house X-ray total scattering
01/01/2025 → 31/12/2028
Research
Solid-state NMR and Pair Distribution Function Studies of Layered Double Hydroxides
01/12/2024 → 30/11/2026
Research
iCASE: Electrically Switchable Windows for Automotive Applications
01/10/2024 → 30/09/2028
Research
FutureCat - The Faraday Institution Future Cathode Project
03/06/2024 → 06/09/2024
Research
Metal Fluoride Open Frameworks as Next-generation K-ion Battery Cathodes
01/02/2024 → 31/01/2027
Research
FutureCat - The Faraday Institution Future Cathode Project
01/10/2023 → 30/09/2025
Research
Development of Electrochemically Assisted Method to Prepare Disordered Rocksalt Cathodes
01/03/2023 → 01/09/2024
Research
Unlock new functionalities of non-native Fe and Mn monoxides via electrochemically assisted synthesis
17/10/2022 → 16/10/2023
Research
MC PDF: Disordered Rocksalt Electrode via Electrochemical Synthesis (DistroElesis)
01/01/1900 → …
Research
- Electrochemical and Surfaces Research Group
- Energy Lancaster
- Inorganic Research group
- Physical and Analytical Chemistry