层错增强少层黑磷烯和黑磷的电子和输运性质。

Stacking Fault Enriching the Electronic and Transport Properties of Few-Layer Phosphorenes and Black Phosphorus.

机构信息

Key Laboratory of Microelectromechanical Systems of the Ministry of Education, Southeast University , Nanjing 210096, China.

Department of Physics, Applied Physics, and Astronomy, Rensselaer Polytechnic Institute , Troy, New York 12180, United States.

出版信息

Nano Lett. 2016 Feb 10;16(2):1317-22. doi: 10.1021/acs.nanolett.5b04719. Epub 2016 Jan 25.

DOI:10.1021/acs.nanolett.5b04719

PMID:26799596

Abstract

Interface engineering is critical for enriching the electronic and transport properties of two-dimensional materials. Here, we identify a new stacking, named Aδ, in few-layer phosphorenes (FLPs) and black phosphorus (BP) based on first-principles calculation. With its low formation energy, the Aδ stacking could exist in FLPs and BP as a stacking fault. The presence of the Aδ stacking fault induces a direct to indirect transition of the band gap in FLPs. It also affects the carrier mobilities by significantly increasing the carrier effective masses. More importantly, the Aδ stacking enables the fabrication of a whole spectrum of lateral junctions with all the type-I, II, and III alignments simply through the manipulation of the van der Waals stacking without resorting to any chemical modification. This is achieved by the widely tunable electron affinity and ionization potential of FLPs and BP with the Aδ stacking.

摘要

界面工程对于丰富二维材料的电子和输运性质至关重要。在这里，我们通过第一性原理计算，在少层磷烯（FLP）和黑磷（BP）中确定了一种新的堆叠方式，命名为 Aδ。基于其低形成能，Aδ堆叠可以作为堆叠层错存在于 FLP 和 BP 中。Aδ堆叠层错的存在诱导了 FLP 带隙的直接到间接跃迁。它还通过显著增加载流子有效质量来影响载流子迁移率。更重要的是，Aδ堆叠使通过范德华堆叠的简单操作而无需任何化学修饰就能够制造具有所有 I 型、II 型和 III 型排列的整个侧向结的光谱成为可能。这是通过 Aδ堆叠的 FLP 和 BP 的广泛可调电子亲和能和电离势来实现的。

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层错增强少层黑磷烯和黑磷的电子和输运性质。

Stacking Fault Enriching the Electronic and Transport Properties of Few-Layer Phosphorenes and Black Phosphorus.

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