The interphase loss in lithium battery anodes follows parabolic growth with chemistry-specific rates in graphite, silicon, and lithium metal anodes, but shows super-parabolic growth in anode-free configurations.
Interfacial kinematics organize degradation across lithium-battery chemistries
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Parabolic-growth universality and its nucleation-driven breakdown across lithium-battery anode chemistries
The interphase loss in lithium battery anodes follows parabolic growth with chemistry-specific rates in graphite, silicon, and lithium metal anodes, but shows super-parabolic growth in anode-free configurations.