The properties of MoS₂ are highly dependent on its structure, which in turn is controlled by the fabrication methods. Low crystalline MoS₂ nanotubes have properties combined with the unique characteristics of nanotubes and highly active sites. However, the preparation of MoS₂ nanotubes with the desired configuration remains a big challenge. A facile method for the preparation of MoS₂ nanotubes with highly active sites is investigated by using in situ grown 3D molybdenum disulfide nanomasks. The low crystalline MoS₂ nanotubes with high specific surface areas and active sites are promising catalytic, sensing, and electrochemical materials. The high-performance lithium storage of the as-produced MoS₂ nanotubes has been demonstrated by the low crystalline MoS₂ nanotubes. A specific capacity of 1253 mAh/g has been obtained by the as-produced MoS₂ nanotubes at a current rate of 200 mAh/g after 150 cycles.

中文翻译：

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低结晶的MoS ₂纳米管的MoS ₂纳米掩模锂离子电池的应用

MoS ₂的性质高度依赖于其结构，而结构又由制造方法控制。低结晶度的MoS ₂纳米管具有与纳米管的独特特征和高活性位相结合的特性。然而，具有所需构型的MoS ₂纳米管的制备仍然是一大挑战。通过使用原位生长的3D二硫化钼纳米掩模研究了一种制备具有高活性位点的MoS ₂纳米管的简便方法。低结晶MoS ₂具有高比表面积和活性位点的纳米管是有前途的催化，传感和电化学材料。低结晶MoS ₂纳米管已经证明了所生产的MoS ₂纳米管具有高性能的锂存储能力。在150次循环后，通过所生产的MoS ₂纳米管以200 mAh / g的电流速率获得了1253 mAh / g的比容量。