New paper published in EES Batteries on the electrochemical modeling of silicon in lithium-ion batteries
New paper published in EES Batteries on the electrochemical modeling of silicon in lithium-ion batteries. In cooperation with industry partners and modelling experts, we presents a new electrochemical modeling framework for silicon anodes in lithium-ion batteries, capturing key challenges such as voltage hysteresis, phase transformations, and long relaxation processes. By combining multi-species, multi-reaction modeling with atomistic insights into lithium-silicon phases, the work provides a more realistic basis for understanding silicon electrodes and improving future battery design and management.
