Li2S has a high theoretical capacity of 1166 mAh g−1, but it suffers from limited rate and cycling performance. Herein we reported in-situ synthesis of thermally exfoliated graphene−Li2S (in-situ TG−Li2S) nanocomposite and its application as a superior cathode material alternative to sulfur. Li2S nanoparticles with the size of ~8.5 nm homogeneously anchored in graphene nanosheets were prepared via chemical reduction of pre-sublimed sulfur by lithium triethylborohydride (LiEt3BH). The in-situ TG−Li2S nanocomposite exhibited an initial capacity of 1119 mAh g−1 Li2S (1609 mAh g−1 S) with a negligible charged potential barrier in the first cycle. The discharge capacity retained 791 mAh g−1 Li2S (1137 mAh g−1 S) after 100 cycles at 0.1C and exceeded 560 mAh g−1 Li2S (805 mAh g−1 S) at a high rate of 2C. Moreover, coupling the composite with Si thin film anode, a Li2S/Si full cell was produced, delivering a high specific capacity of ~900 mAh g−1 Li2S (1294 mAh g−1 S). The outstanding electrode performance of in-situ TG−Li2S composite was attributed to the well dispersed small Li2S nanoparticles and highly conductive graphene nanosheets, which provided merits of facile ionic and electronic transport, efficient utilization of the active material, and flexible accommodation of volume change.
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机译:Li 2 S具有1166 mAh g -1 的高理论容量,但是其速率和循环性能受到限制。在这里,我们报道了热剥离石墨烯-Li2S(原位TG-Li2S)纳米复合材料的原位合成及其作为硫的优良阴极材料的应用。通过用三乙基硼氢化锂(LiEt3BH)化学还原预升华的硫,制备了均匀锚固在石墨烯纳米片中的大小约为8.5nm的Li2S纳米颗粒。原位TG-Li2S纳米复合材料的初始容量为1119 mAh g -1 Li2S(1609 mAh g -1 S),其最初的带电势垒可忽略不计周期。在0.1C下循环100次后,放电容量保持791 mAh g -1 Li2S(1137 mAh g -1 S),并超过560 mAh g -1 Li2S(805 mAh g -1 S),以2C的高速率加热。此外,将复合材料与Si薄膜阳极耦合,可制得Li2S / Si全电池,可提供约900 mAh g -1 Li2S的高比容量(1294 mAh g -1 < / sup> S)。原位TG-Li2S复合材料的出色电极性能归因于分散良好的小Li2S纳米颗粒和高导电性石墨烯纳米片,具有易于离子和电子传输,有效利用活性物质以及灵活适应体积变化的优点。 。
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