Our Research

• Improving Performance of Composites and Multi-component Material Systems for Hydrogen Transmission & Storage 

• Understanding Physico-Chemo-Mechanical Processes in Advanced Engineering Materials for Energy Storage

• Developing Mechanistic and Data-driven Modelling approaches for Optimum Design across Material Scales 

• Innovative Multiphysics Modelling for Flexible Composite Piping Technology, Innovate UK, 2023-2025. (with Baker Hughes Ltd)

• Predictive Hydrogen Permeation Capability for Composite Materials, HVM Catapult, 2023-2024. (with National Composites Centre)

• Gaseous Hydrogen Permeation Test Methodology to Enable Improved Composites Storage Solutions in Fuel Cell Vehicles, Henry Royce Institute, 2022-2023.  (with National Physical Laboratory and University of Manchester)

• Micromechanics of Solid-state Batteries, Faraday Institution/EPSRC, 2021-2023. (with University of Oxford)

• Ecologically and Economically-viable Production and Recycling of Li-ion Batteries (ECO2LIB), EU Horizon 2020, 2020-2024. (with Varta Microbattery Gmbh)

• Multi optimal Solutions for Energy Storage Systems  (MOSESS), Innovate UK, 2019-2021. (with McLaren Automotive) 

• Silicon-based Materials and Processing Technologies for Improved Li-ion Batteries (SINTBAT), EU H2020, 2016-2020.  (with Varta Microbattery Gmbh)

• Biaxial Stretching of Polymer Composites for Biomedical Applications (Bi-Stretch-4-Biomed), EU Horizon 2020, 2016-2020. (with California Institute of Technology)

You can find the full list of our Group's papers on ORCID in here. 

We are happy to answers any questions on any of our papers - so please get in touch!