Thermally driven homonuclear-stacking phase of MoS2 through desulfurization

Hwang Young Hun; Yun Won Seok; Cha Gi-BeomHong Soon CheolHan Sang Wook

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Thermally driven homonuclear-stacking phase of MoS2 through desulfurization

机译：热驱动homonuclear-stacking阶段二硫化钼通过脱硫

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Engineering phase transitions or finding new polymorphs offers tremendous opportunities for developing functional materials. We reveal that the thermally driven desulfurization of single-crystalline MoS2 samples improves transport properties by reducing the band gap and further induces metallization. Semi-desulfurization, i. e., removal of the topmost S layer, results in the placement of the exposed Mo layers directly on top of the following sub-layers, together with the bottom S layer of the top layer. This homonuclear (AA) stacking derived from the AA' stacking of the hexagonal (2H) phase is retained even after further desulfurization of the remaining bottom S layer, i. e., full desulfurization of the top layer. Our findings fundamentally explain why the 2H phase of TMDs is characterized by AA' stacking.

机译：工程相变或寻找新的多晶型物提供了巨大的机会开发功能材料。的热驱动脱硫单个水晶二硫化钼改善样品通过减少带隙和传输特性进一步诱发金属化。Semi-desulfurization,即切除最高的层,导致的位置直接暴露钼层的顶部子层后,连同底部层的顶层。叠加来自AA的叠加六角保留即使(2 h)阶段进一步脱硫的底部层,即完全脱硫层。2 h tmd的特征是AA的阶段叠加。

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来源
《Nanoscale 》 |2019年第23期| 11138-11144| 共7页
作者
Hwang Young Hun; Yun Won Seok; Cha Gi-BeomHong Soon CheolHan Sang Wook;
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作者单位

Univ Ulsan, Dept Phys, Ulsan 44610, South Korea;

DGIST, Dept Emerging Mat Sci, Daegu 42988, South Korea;

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原文格式 PDF
正文语种英语
中图分类 Online;
关键词
Napier's constant; Phase; transport propertiestop layerBand gapStackingPhase transtormations;

机译：欧拉常数;阶段;运输propertiestoplayerBand gapStackingPhase结合;

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Thermally driven homonuclear-stacking phase of MoS2 through desulfurization

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