Defect-free-induced Na+disordering in electrode materials
journal contribution
posted on 2024-11-17, 13:32authored byJian Peng, Mingyang Ou, Haocong Yi, Xueping Sun, Yuanpeng Zhang, Bao Zhang, Yu Ding, Feng Wang, Songqi Gu, Carlos Alberto López, Wang Zhang, Yi Liu, Ju Fang, Peng Wei, Yuyu Li, Ling Miao, Jianjun Jiang, Chun Fang, Qing Li, María Teresa Fernández-Díaz, José Antonio Alonso, Shulei Chou, Jiantao Han
For reaching high-performance of electrode materials, it is generally believed that understanding the structure evolution and heterogeneous alignment effect is the key. Presently, a very simple and universally applicable self-healing method is investigated to prepare defect-free Prussian blue analogs (PBAs) that reach their theoretical capacity as cathode materials for sodium-ion batteries (SIBs). For direct imaging of the local structure and the dynamic process at the atomic scale, we deliver a fast ion-conductive nickel-based PBA that enables rapid Na+ extraction/insertion within 3 minutes and a capacity retention of nearly 100% over 4000 cycles. This guest-ion disordered and quasi-zero-strain nonequilibrium solid-solution reaction mechanism provides an effective guarantee for realizing long-cycle life and high-rate capability electrode materials that operate via reversible two-phase transition reaction. Unconventional materials and mechanisms that enable reversible insertion/extraction of ions in low-cost metal-organic frameworks (MOFs) within minutes have implications for fast-charging devices, grid-scale energy storage applications, material discovery, and tailored modification.
Funding
National Natural Science Foundation of China (51732005)