从大豆芽中提取的两种氮和硫共掺杂碳,可实现高性能锂硫电池

Lin Zhu, Wenjing Zheng, Hongbo Xie, Kan Zhang
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引用次数: 0

摘要

硫锂电池因其高能量密度和理论容量、丰富的硫阴极资源、低廉的价格和环境友好性而被认为是一种很有前途的储能技术。然而,由于硫的绝缘性、充放电过程中的体积膨胀/收缩和穿梭效应,硫的利用率低,容量衰减快,严重阻碍了其商业化进程。本文通过分离豆芽的根和子叶,设计并制备了两种氮硫共掺杂碳。制备的共掺杂碳被用作商用分离器的涂层。包覆分离器不仅可以物理吸附多硫化物,而且由于共掺杂引入了活性位点,增加了多硫化物的化学吸附,因此可以有效地抑制穿梭效应。采用NS-SSRC和NS-SSCC涂层的锂离子电池在1C下的首次放电容量分别为847.7 mAh g−1和888.1 mAh g−1,循环500次后分别保持389.7 mAh g−1和477.6 mAh g−1。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Two types of nitrogen and sulfur co-doped carbons derived from soybean sprouts enabling high performance lithium‑sulfur batteries
Lithium sulfur batteries (LiSBs) are regarded as the promising energy storage technologies because of its high energy density and theoretical capacity, rich sulfur cathode resources, low price and environmental friendliness. However, the utilization rate of sulfur is low and the capacity attenuation is fast due to the insulativity of sulfur, volume expansion/contraction and shuttle effect during charging and discharging, which seriously hinders its commercialization process. In this work, two types of nitrogen and sulfur co-doped carbons were designed and prepared by separating the roots and cotyledons of soybean sprouts. The as-prepared co-doped carbons were used as a coating on the commercial separator. The coated separator can not only physically adsorb polysulfides, but also increase the chemical adsorption of polysulfides due to the introduction of active sites by co-doping, so it can effectively inhibit the shuttle effect. The first discharge capacities of LiS batteries with NS-SSRC and NS-SSCC coated separators at 1C were 847.7 mAh g−1 and 888.1 mAh g−1, respectively, and they retained 389.7 mAh g−1 and 477.6 mAh g−1 after 500 cycles, respectively.
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