Shijiang He, Zidong Wang, Wenbo Qiu, Huaping Zhao, Yong Lei
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引用次数: 0
摘要
由于比容量高、循环寿命长,双金属硫化物成为研究人员在钠离子电池(SIB)中用作阳极的首选。然而,研究表明,这类材料通常需要使用昂贵的元素,如 Co、Sb、Sn 等,而仅使用廉价的 Fe、V 则无法充分发挥其性能。因此,有必要探索金属阳离子与阳极性能之间的关系,以便同时满足降低成本和提高性能的要求。在这项工作中,我们采用水热法制备了一系列具有不同阳离子比例的部分置换硫化物,然后进行了热处理。通过部分取代镍钴硫化物中的钴,所有样品的容量和稳定性都比原来的镍钴硫化物有所提高。因此,金属元素具有不同的氧化态,通过相互之间的协同作用,产生了更高的容量。替代率为 10% 的锰-镍钴硫化物显示出令人满意的容量(300 mA g-1 时为 721.09 mAh g-1,20 次循环后为 662.58 mAh g-1)和出色的循环寿命(2000 mA g-1 时 1000 次循环后容量保持率为 85.41%)。
Effect of Partial Cation Replacement on Anode Performance of Sodium-Ion Batteries
Due to their high specific capacity and long cycle life, bimetallic sulfides are the preferred choice of researchers as anodes in sodium-ion batteries (SIBs). However, studies indicate that this class of materials often requires expensive elements such as Co, Sb, Sn, etc., and their performance is insufficient with the use of inexpensive Fe, V alone. Therefore, there is a need to explore the relationship between metal cations and anode performance so that the requirements of cost reduction and performance enhancement can be met simultaneously. In this work, a series of partially replaced sulfides with different cation ratios have been prepared by a hydrothermal method followed by heat treatment. By partially replacing Co in NiCo sulfides, all samples show improved capacity and stability over the original NiCo sulfides. As a result, the metal elements have different oxidation states, which leads to a higher capacity through their synergistic effects on each other. Mn-NiCoS with 10% replacement showed satisfactory capacity (721.09 mAh g−1 at 300 mA g−1, 662.58 mAh g−1 after 20 cycles) and excellent cycle life (85.41% capacity retention after 1000 cycles at 2000 mA g−1).
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