Epitaxial Growth of Free-Standing Bismuth Film on Graphene Embedded with Nontrivial Properties

Shen, Kongchao; Hua, Chenqiang; Liang, Zhaofeng; Wang, Yao; Sun, Haoliang; Hu, Jielun; Zhang, Huan; Li, Haiyang; Jiang, Zheng; Huang, Han; Wang, Peng; Sun, Zhe; Wahlström, Erik; Lu, Yunhao; Song, Fei

doi:10.1021/acsaelm.9b00366

Cited by 16 publications

(20 citation statements)

References 53 publications

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“…The periodicity of Bi(111) thin film is around 4.7 Å, as shown in Fig. 1c, which is larger than the lattice constant (~ 4.54 Å ) of 7-layer Bi(111) thin film grown on graphene/SiC substrate but comparable to that (~ 4.75 Å ) of monolayer Bi(111) on single-layer Bi(110) with the support of highly oriented pyrolytic graphite 25,26 .…”

mentioning

confidence: 88%

“…The bismuth thin film displays the thickness dependent facet on the surface of graphene at room temperature, where a crystalline transition from (110)-orientated facet with the black phosphorus-like structure to (111)-orientated facet with the buckled honeycomb structure occurs after the layer number increases up to a critical value 25 . The similar growth dynamics have also been identified in our results, as shown in Supplementary Fig.…”

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confidence: 99%

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Epitaxial Growth of Quasi-One-Dimensional Bismuth-Halide Chains with Atomically Sharp Topological Non-Trivial Edge States

Zhuang

Liu

et al. 2021

ACS Nano

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Quantum spin Hall insulators have one-dimensional (1D) spin-momentum locked topological edge states (ES) inside the bulk band gap, which can serve as dissipationless channels for the practical applications in low consumption electronics and high performance spintronics. However, the clean and atomically sharp ES serving as ideal 1D conducting channels are still lack. Here, we report the formation of the quasi-1D Bi4I4 nanoribbons on the surface of Bi(111) with the support of the graphene-terminated 6H-SiC(0001) and the direct observations of the topological ES at the step edge by scanning tunneling microscopy and spectroscopic-imaging results. The ES reside surround the edge of Bi4I4 nanoribbons and exhibits remarkable robustness against non time reversal symmetry perturbations. The theoretical simulations verify the topological non-trivial character of 1D ES, which is retained after considering the presence of the underlying Bi(111). Our study supports the existence of topological ES in Bi4I4 nanoribbons, paving the way to engineer the novel topological features by using the nanoribbons as the 1D building block.

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confidence: 88%

mentioning

confidence: 99%

Epitaxial Growth of Quasi-One-Dimensional Bismuth-Halide Chains with Atomically Sharp Topological Non-Trivial Edge States

Zhuang

Liu

et al. 2021

ACS Nano

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“…[ 44a ] In particular, its in‐plane anisotropic properties, which arise from the puckered structure, [ 152 ] have inspired the intensive exploration of other isoelectronic materials [ 45 ] and Group VA elemental analogs. [ 11d,153 ] In addition to phosphorous, arsenic, antimony [ 154 ] and bismuth [ 155 ] have all been established as semiconducting materials by calculations as well as experiments during the last several years. [ 18b ] We will address recent achievements in the epitaxial growth of these elemental graphene analogs on various types of substrates.…”

Section: Epitaxial Growth Of Me2dmsmentioning

confidence: 99%

“…Such layer‐dependent phase transition has also been observed during the growth of Bi on graphite and graphene surfaces. [ 155 ]…”

Section: Epitaxial Growth Of Me2dmsmentioning

confidence: 99%

Epitaxial Growth of Main Group Monoelemental 2D Materials

Zhou

et al. 2020

Adv Funct Materials

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Since the discovery of graphene, 2D materials have attracted significant attention for their unique properties. Monoelemental 2D materials (ME2DMs) are of particular interest because of their superiority in synthetic exploration, excellent mobility, and wide range of band gaps over other 2D compounds. Substantial efforts are devoted to fabricate high‐quality materials through various substrates and reveal the growth mechanism at the atomic scale. In this review, the recent progress in the preparation of these ME2DMs is explored, the roles of different substrates is highlighted, and the challenges of and perspectives on their heterostructures is discussed.

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“…[37][38][39]110] Figures 2c,d shows the top and side views of the αand β-bismuthene, which exhibit a puckered black-phosphorus-like structure and a buckled graphene-like structure corresponding to the Bi (110) and Bi (111) plane, respectively. Ab initio molecular dynamics simulations indicated that both geometries have good thermal stability and could keep stable up to 700 K. [111] Experimentally, Bi prefers the formation of α-bismuthene film at a small thickness when deposited on Si(111), [110a] highly oriented pyrolytic graphite (HOPG), [110b,c] 1TÀ TaS 2 [37] and graphene/SiC substrates, [36] while β-bismuthene is favored for thicker film. For example, upon reducing the thickness of Bi films from 8 layers to 2 layers on the 1TÀ TaS 2 , the 2D Bi films underwent a structural transition from buckled to puckered structure.…”

Section: Bimentioning

confidence: 99%

Synthesis of Two‐dimensional Metallic Nanosheets: From Elemental Metals to Chemically Complex Alloys

Yang

2020

ChemNanoMat

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Ultrathin two-dimensional (2D) metallic materials with single-or few-atom thickness, emerging as one new class of 2D materials, have attracted extraordinary interest due to their fantastic physical and chemical properties, and great potential applications in catalysis, biomedicine, electronics/optoelectronic devices, sensing, and energy storage. In contrast with graphene-like 2D layered materials, facile fabrication of ultrathin 2D metallic materials remains a great challenge owing to their intrinsic tendency of metals to form three-dimensional (3D) close-packed structures. This article reviews and summarizes the recent progress-both experimental and theoretical-in the synthesis of 2D metallic nanosheets from mono-elemental metals to chemically complex alloys and offers perspectives and challenges on the future developments in this field.

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Epitaxial Growth of Free-Standing Bismuth Film on Graphene Embedded with Nontrivial Properties

Cited by 16 publications

References 53 publications

Epitaxial Growth of Quasi-One-Dimensional Bismuth-Halide Chains with Atomically Sharp Topological Non-Trivial Edge States

Epitaxial Growth of Quasi-One-Dimensional Bismuth-Halide Chains with Atomically Sharp Topological Non-Trivial Edge States

Epitaxial Growth of Main Group Monoelemental 2D Materials

Synthesis of Two‐dimensional Metallic Nanosheets: From Elemental Metals to Chemically Complex Alloys

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