High impedance at the solid-solid interface limits charge transfer efficiency. Reducing this resistance is critical for high-power density in solid-state energy storage.

Active materials undergo volume changes and mechanical stress during cycling, leading to delamination or structural failure. Maintaining structural integrity prevents capacity decay and short circuits.

Standard polymer electrolytes suffer from structural deformation and degradation under high temperatures or mechanical stress. Resolving these instabilities prevents internal short circuits and extends the operational lifespan of energy storage and filtration systems.