Mixed-Phase Niobium Oxide as a Durable and Ultra-Fast Charging Anode for High-Power Lithium-Ion Batteries

The development of low-cost, high-power lithium-ion batteries requires durable anode materials that can store and release lithium quickly. Here a mixed phase of H-Nb2O5 and M-Nb2O5 (denoted as d-H,M-Nb2O5) that demonstrates excellent performance as an anode material for lithium storage is reported. Experimental and computational analyses reveal several salient features of d-H,M-Nb2O5. First, the edge-sharing arrangement between the mixed niobium oxygen polyhedral block structures helps alleviate volume expansion during cycling, thereby enhancing stability and reversibility. Second, the mixed-phase structure facilitates a continuous pathway for lithium ion adsorption These characteristics allow for sequential transport of lithium ions, enabling fast charging. As a result, the d-H,M-Nb2O5 electrode material exhibits a high capacity of 142 mAh g-1 at an ultra-fast charging rate of 100 C, while maintaining 85% of its initial capacity after 5000 cycles. Moreover, its practical feasibility is established by demonstrating full-cell performance at a 5 C discharge/charge rate (13 mA cm-2), maintaining 79% of its capacity over 1000 cycles. The unique structural features of d-H,M-Nb2O5 promote swift lithium-ion transport, facillitating fast charging, while also maintaining excellent capacity retention and an extended cyclying lifespan. image

Automated summary

The mixed phase material d-H,M-Nb2O5 is reported as an excellent anode material for lithium-ion batteries, with the ability to store lithium quickly and maintain stability and reversibility during cycling. The unique structure of d-H,M-Nb2O5 promotes fast charging and high capacity retention over a large number of cycles.