Explore application notes showcasing how illumion's charge photometry system provides unique insight into particle-level behaviour, helping researchers solve complex challenges in battery materials development.
Where does silicon swelling really come from? By combining operando dilatometry with operando charge photometry, we show that first-cycle irreversible expansion originates at the electrode and cell level, not within particles of the active material.
For developers of silicon and silicon-composite anodes, this combined approach provides a sound experimental basis for decisions on composite design, porosity targets and rate-dependent cycling strategy.
Explore how E-MAGY’s nanoporous silicon technology is reshaping lithium-ion battery performance. This application note highlights groundbreaking analysis using illumion’s charge photometry system, providing detailed insight into silicon anode behaviour in real time during cycling.
Discover how the illumionONE is supporting faster development and improved stability of next-generation battery materials.
Discover how our optical systems can accelerate your own research