Abstract
Uncontrolled lithium (Li) dendrite formation presents major safety risks and challenges in the Li host design. A novel approach is introduced, using a valence gradient in iron nanoparticles (Fe0, Fe2+, Fe3+) to stabilize the anodes. An Fe0 component, with fast Li diffusion, ensures a steady supply of Li to Fe2+ and Fe3+ components, which have slower Li diffusion. This coordinated interplay between fast and slow diffusion uniformizes Li deposition near the substrate, effectively reducing the rate of dendrite growth. The as-prepared framework demonstrates uniform Li plating with a minimal hysteresis voltage after extensive cycling for 1200 h in symmetric cells. Integrated into a full cell with LiFePO4, it demonstrates outstanding cycling stability for almost 950 cycles with a capacity of 92.2 mA h g-1 at 1C with an ultralow N/P ratio of 1.19. This valence gradient design strategy broadens the design potential for transition-metal compounds in regulating Li deposition by mitigating interfacial Li+ behavior.
Published Version
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