发布时间：2022-04-02

文章标题：本课题组与中南大学冶金与环境学院赖延清/张治安教授课题组在钠离子电池正极研究领域合作发表1篇SCI论文。

内容：

论文题目： Organic/inorganic anions coupling enabled reversible high-valent redox in vanadium-based polyanionic compound

论文摘要：Recently, there has been a drive to design and develop mixed polyanion compounds for positive electrode applications in sodium-ion batteries (SIBs) due to their high-valent redox, robust electrode framework and good safety. Although advances have been made, the exploration of new electrode materials and fundamental understanding of working mechanisms have been lacking. Here, we report a low-temperature synthesis of an organic/inorganic anions coupled Na₂(VO)₂(HPO₄)₂(C₂O₄) polyanionic compound (noted as NVPC), which exhibits a distinctive layered structure. The structure is able to stabilize reversible high-valent redox of V⁴⁺/⁵⁺, thereby the NVPC shows a moderate reversible capacity of 105 mA h g^-1 at 0.1 C and a high redox potential around 4.00/3.80 V vs. Na/Na⁺, which is larger than the NaVOPO₄. The enhanced Na⁺ diffusion capability and reduced band gap in NVPC is experimentally demonstrated by galvanostatic intermittent titration technique and theoretically validated by calculations. Besides, a small volume change (1.36 %) of NVPC electrode during intercalation reaction is unambiguously demonstrated by diffraction and nanoscale structural analysis. Generally, our studies highlight that coupling organic/inorganic anions in polyanionic compounds is a practical strategy to stabilize high-valent redox center for developing high energy density SIB cathode materials.

论文信息：Energy Storage Materials, 2022, 47, 526