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Recent Advances in Developing Hybrid Materials for Sodium-Ion Battery Anodes
ACS Energy Letters ( IF 19.3 ) Pub Date : 2020-05-18 , DOI: 10.1021/acsenergylett.0c00973 Jang Mee Lee 1 , Gurwinder Singh 1 , Wangsoo Cha 1 , Sungho Kim 1 , Jiabao Yi 1 , Seong-Ju Hwang 2 , Ajayan Vinu 1
ACS Energy Letters ( IF 19.3 ) Pub Date : 2020-05-18 , DOI: 10.1021/acsenergylett.0c00973 Jang Mee Lee 1 , Gurwinder Singh 1 , Wangsoo Cha 1 , Sungho Kim 1 , Jiabao Yi 1 , Seong-Ju Hwang 2 , Ajayan Vinu 1
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Sodium-ion batteries (SIBs) are an attractive prospect for energy storage in applications ranging from portable devices to large-scale energy storage grids. However, practical application of SIBs is hindered by their large size and concomitant sluggish kinetics. The hybridization strategy has been widely utilized as one of the effective ways to facilitate the enhancement of battery performance of the SIB electrodes. A combination of transition metal compounds and carbonaceous species is a popular hybrid that could offer a wide range of possibilities for fabricating high-performance and long-lasting SIB anodes. This Review specifically highlights hybridization strategies of transition metal compounds, including metal oxides, metal sulfides, metal phosphides, and metal carbides with different carbon species. Systematic discussion of the Na+-ion storage mechanism in these hybrids has been given special importance. The effect of the hybridization on SIB performance is comprehensively covered in this Review to gauge the full impact of these materials as promising SIB anodic materials for the future.
中文翻译:
开发用于钠离子电池阳极的混合材料的最新进展
钠离子电池(SIB)在从便携式设备到大型储能网格的各种应用中具有广阔的储能前景。但是,SIB的实际应用因其尺寸大和动力学缓慢而受到阻碍。杂交策略已被广泛用作促进SIB电极电池性能增强的有效方法之一。过渡金属化合物和碳质物质的组合是一种流行的混合体,可以为制造高性能和持久的SIB阳极提供广泛的可能性。该评论特别强调了过渡金属化合物的杂交策略,包括具有不同碳物种的金属氧化物,金属硫化物,金属磷化物和金属碳化物。Na的系统讨论这些杂化物中的+离子存储机制已被特别重视。该综述全面涵盖了杂交对SIB性能的影响,以评估这些材料作为未来有希望的SIB阳极材料的全部影响。
更新日期:2020-05-18
中文翻译:
开发用于钠离子电池阳极的混合材料的最新进展
钠离子电池(SIB)在从便携式设备到大型储能网格的各种应用中具有广阔的储能前景。但是,SIB的实际应用因其尺寸大和动力学缓慢而受到阻碍。杂交策略已被广泛用作促进SIB电极电池性能增强的有效方法之一。过渡金属化合物和碳质物质的组合是一种流行的混合体,可以为制造高性能和持久的SIB阳极提供广泛的可能性。该评论特别强调了过渡金属化合物的杂交策略,包括具有不同碳物种的金属氧化物,金属硫化物,金属磷化物和金属碳化物。Na的系统讨论这些杂化物中的+离子存储机制已被特别重视。该综述全面涵盖了杂交对SIB性能的影响,以评估这些材料作为未来有希望的SIB阳极材料的全部影响。
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