Senior Scientist - Microstructural As a Senior Scientist, you will directly contribute to the development and optimisation of our solid-state sodium battery cells with a specific focus on microstructural optimisation measured through battery performance, and developing the understanding of key microstructural parameters through multi-physics modelling. The role is full-time and is based at our science facility in the centre of Lancaster. Key responsibilities Contribute to the continued improvement of cathode performance in cell technologies, with a focus on optimization of microstructures and how this varies as a function of composition in line with the company roadmap, strategy, and product delivery schedule. Working individually and collaborating with the R&D team, you will aid in the understanding of key cell components from first principles while providing inputs on how the structure of our cell technologies can be optimized. Use multi-physics modelling of the electrochemical environment within our cells to create and develop models of the components within the cell and using this to optimize. Working closely with the Group Lead, you will plan work packages to meet sprint goals, contributing to and leading internal team meetings and project updates. Develop and maintain documentation including design specifications, test plans, and user manuals such as SOP’s. Champion and adhere to project schedules and milestones, ensuring timely delivery of project deliverables and technological milestones Maintain awareness of literature, ideate on new potential routes, and propose technical advances. Collaborate with external suppliers, academics, and vendors to source components or materials, tools, or services required for cell research and development. Essential skills & experience 3 years in 3D-electrode development in electrochemical systems (batteries, fuel cells etc) Experience with characterisation of microstructures through techniques such as cross-sectional SEM, FIBSEM, BET etc. Significant academic or industrial experience in relevant computer software (COMSOL, etc.) A fundamental understanding of electrochemical devices, including the formation of interfaces and SEIs in batteries and the major mechanisms governing these Bachelor's or Master's degree in chemistry, materials science, chemical engineering or a closely related field. Ability to collaborate across disciplines and departments, with focus on commercialisation and on novel research and development. Experience working within a laboratory and operating within a glovebox environment. Excellent problem-solving skills and the ability to work effectively in a team environment. Strong written and verbal communication skills.