One of the strategy of Silicon Anode Battery is to employ silicon composite materials, where silicon is combined with other materials to form a composite structure. For example, silicon can be integrated with carbon-based materials, such as graphene or carbon nanotubes, to create a hybrid anode material. The carbon component acts as a buffer, accommodating the volume changes of silicon while maintaining the overall structural stability of the anode.
Furthermore, advanced manufacturing techniques and electrode engineering play a crucial role in optimizing the performance of Silicon Anode Battery. Techniques like electrode architecture design, electrodeposition, and nanostructuring can enhance the stability, conductivity, and electrochemical performance of silicon anodes.