Microstructural constructing 2D tin allotropes on Al(111): from quasi-periodic lattice to square-like lattice

Haifeng Feng; Xun Xu; Yundan Liu; Jincheng Zhuang; Weichang Hao; Yi Du; Shi Xue Dou

doi:10.20517/microstructures.2023.01

Microstructures ›› 2023, Vol. 3 ›› Issue (3) :2023017 DOI: 10.20517/microstructures.2023.01

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Microstructural constructing 2D tin allotropes on Al(111): from quasi-periodic lattice to square-like lattice

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Abstract

The lattice arrangement and degree of buckling have been playing vital roles in the structure stability, bonding configuration, and electronic band structures of two-dimensional (2D) single-layer materials. Here, we fabricate two tin allotropes beyond honeycomb stanene by epitaxial growth method on Al(111). Sn-I phase with quasi-periodic lattice and Sn-II phase with square-like lattice have been identified by scanning tunneling microscopy. Combined with scanning tunneling spectroscopy, it is revealed that Sn-II phase with four-coordinate tin atoms exhibits enhanced decoupling effects due to their saturated bonds. In this study, the discovery of new lattice arrangements with well-defined atomic structures beyond honeycomb lattice provides an appealing approach to searching 2D elemental single layers and novel physical properties.

Keywords

Stanene / epitaxial growth / 2D lattice / STM

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Haifeng Feng, Xun Xu, Yundan Liu, Jincheng Zhuang, Weichang Hao, Yi Du, Shi Xue Dou. Microstructural constructing 2D tin allotropes on Al(111): from quasi-periodic lattice to square-like lattice. Microstructures, 2023, 3(3): 2023017 DOI:10.20517/microstructures.2023.01

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