聚苯乙烯模板气溶胶合成具有开放大孔的 MoS2-非晶态碳复合材料作为电池电极。

Polystyrene-Templated Aerosol Synthesis of MoS2 -Amorphous Carbon Composite with Open Macropores as Battery Electrode.

机构信息

Department of Materials Science and Engineering, Korea University, Anam-Dong, Seongbuk-Gu, Seoul 136-713 (Republic of Korea).

出版信息

ChemSusChem. 2015 Jul 8;8(13):2260-7. doi: 10.1002/cssc.201500063. Epub 2015 Jun 22.

DOI:10.1002/cssc.201500063

PMID:26098539

Abstract

MoS2 -amorphous carbon (MoS2 -AC) composite microspheres with macroporous structure were fabricated by one-pot spray pyrolysis. Single- or few-layered MoS2 were uniformly dispersed and oriented in random directions in the amorphous carbon microsphere with macropores sizes between 50 and 90 nm. The macroporous microspheres having a high contact area with liquid electrolyte exhibited overall superior Li- and Na-ion storage properties compared with those of the dense microspheres. After 250 charge/discharge cycles at a current density of 1.5 A g(-1) , the discharge capacities of the MoS2 -AC microspheres with dense and macroporous structures for Li-ion storage were 694 and 896 mAh g(-1) , respectively. In the case of Na-ion storage, discharge capacities of 336 and 425 mAh g(-1) were achieved for the dense and macroporous microspheres, respectively, after 100 cycles at 0.3 A g(-1) .

摘要

通过一步喷雾热解法制备了具有大孔结构的 MoS2-无定形碳 (MoS2-AC) 复合微球。在孔径为 50 至 90nm 的无定形碳微球中，单层或少数层 MoS2 均匀分散并随机方向取向。具有与液体电解质高接触面积的大孔微球表现出整体上优于致密微球的锂离子和钠离子存储性能。在电流密度为 1.5A/g 的条件下经过 250 次充放电循环后，具有致密和大孔结构的 MoS2-AC 微球的锂离子存储放电容量分别为 694 和 896mAh/g。在钠离子存储的情况下，在 0.3A/g 的电流密度下循环 100 次后，致密和大孔微球的放电容量分别为 336 和 425mAh/g。

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聚苯乙烯模板气溶胶合成具有开放大孔的 MoS2-非晶态碳复合材料作为电池电极。

Polystyrene-Templated Aerosol Synthesis of MoS2 -Amorphous Carbon Composite with Open Macropores as Battery Electrode.

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