材料科学
阴极
插层(化学)
电池(电)
纳米技术
钒
合理设计
图层(电子)
镍
电极
碱性电池
化学工程
光电子学
石墨烯
氧化钒
工作(物理)
作者
Yanchun Liu,Yixin Wang,Tianyu Qiu,Yingqi Li,Xianggang Zhou,Mingxin Shi,Yuchen Liu,Huaqiao Tan,Xun Wang,Yangguang Li
出处
期刊:Small
[Wiley]
日期:2025-09-18
卷期号:21 (44): e08244-e08244
被引量:1
标识
DOI:10.1002/smll.202508244
摘要
Vanadium oxides are promising cathode materials for rechargeable batteries due to their high specific capacity. However, its application is hindered by the poor rate capability and cycling stability. Herein, porphyrins are employed as pre-intercalated guests to elastically modulate the interlayer spacing of the V─O skeleton. By tailoring the size of porphyrins, the interlayer spacing is effectively expanded, enhancing the structural integrity of the VO host. Experimental and theoretical investigations confirm that porphyrin intercalation not only expands the layer spacing but also establishes a strong interaction with V─O layers, thus improving the material's stability. Remarkably, sodium-ion batteries (SIBs) assembled using this novel H2TCPP-intercalated V2O5 grown on nickel foam (NF) (H2TCPP-VO/NF) deliver an impressive specific capacity of 760.7 mAh g-1 at 0.07 A g-1, outperforming most reported vanadium-based cathodes. This work offers valuable insights for the rational design of high-performance cathode materials capable of accommodating large-sized ions.
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