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Plumbene is a material made up of a single layer of lead atoms.[1][2][3] The material is created in a process similar to that of graphene, silicene, germanene, and stanene, in which high vacuum and high temperature are used to deposit a layer of lead atoms on a substrate. High-quality thin films of plumbene have revealed two-dimensional honeycomb structures. First researched by Indian scientists[dubious โ€“ discuss], further investigations are being done around the world.

Preparation and structure

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In April 2019, J. Yuhara and others reported the deposition of a single atom thickness by molecular beam epitaxy with a segregation method upon a palladium surface in a crystal lattice with Miller indices (111). The structure was confirmed with scanning tunneling microscopy (STM) revealing a nearly flat honeycomb structure.[4] There is no evidence of any three-dimensional islands, but one notices a unique nanostructured tessellation all over the terraces looking like a space-filling polyhedral foam reduced to dimension 2.

Properties

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Plumbene's electronic and optical properties have been determined from ab initio calculations, indicating a band gap of 0.4 eV.[5][2]

References

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  1. ^ Wang, Pei-ji; Ping Li; Zhang, Bao-min; Yan, Shi-shen; Sheng-shi Li; Zhang, Run-wu; Ji, Wei-xiao; Yan, Shi-shen; Zhang, Chang-wen (2016-02-02). "Unexpected Giant-Gap Quantum Spin Hall Insulator in Chemically Decorated Plumbene Monolayer". Scientific Reports. 6 20152. Nature. Bibcode:2016NatSR...620152Z. doi:10.1038/srep20152. PMCย 4735859. PMIDย 26833133.
  2. ^ a b Das, Dhiman Kumar; Sarkar, Jit; Singh, S. K. (2018-08-01). "Effect of sample size, temperature and strain velocity on mechanical properties of plumbene by tensile loading along longitudinal direction: A molecular dynamics study". Computational Materials Science. 151: 196โ€“203. doi:10.1016/j.commatsci.2018.05.006. S2CIDย 139217230.
  3. ^ Zhang, Liang; Zhao, Hui; Ji, Wei-xiao; Zhang, Chang-wen; Li, Ping; Wang, Pei-ji (2018). "Discovery of a new quantum spin Hall phase in bilayer plumbene". Chemical Physics Letters. 712: 78โ€“82. Bibcode:2018CPL...712...78Z. doi:10.1016/j.cplett.2018.09.016. ISSNย 0009-2614. S2CIDย 105573942.
  4. ^ Yuhara, J.; He, B.; Le Lay, G. (2019). "Graphene's Latest Cousin: Plumbene Epitaxial Growth on a "Nano WaterCube"". Advanced Materials. 31 (27) 1901017. Bibcode:2019AdM....3101017Y. doi:10.1002/adma.201901017. PMIDย 31074927. S2CIDย 149446617.
  5. ^ Yu, X.-L.; Huang, L.; Wu, J. (2017), "From a normal insulator to a topological insulator in plumbene", Physical Review B, 95 (12) 125113, arXiv:1702.07447, Bibcode:2017PhRvB..95l5113Y, doi:10.1103/PhysRevB.95.125113, S2CIDย 119076198

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Single-layer materials

electron diffraction has shown ultra-flat stanene on a Cu(111) surface. Plumbene is a two-dimensional allotrope of lead, with a hexagonal honeycomb structure

Double bond

bond length can be longer than that of many corresponding single bonds Plumbenes and stannenes generally dissociate in solution into monomers with bond

Graphene

displaying short descriptions of redirect targets Penta-graphene Phagraphene Plumbeneย โ€“ Material made up of a single layer of lead atoms Siliceneย โ€“ Two-dimensional

Germanene

properties are generally shared by graphene, silicene, germanene, stanene, and plumbene. Dรกvila, Marรญa Eugenia; Le Lay, Guy (2016). "Few layer epitaxial germanene:

Silicene

attractive electrode materials. 2D silica Borophene Germanene Stanene Plumbene Sone, Junki; Yamagami, Tsuyoshi; Nakatsuji, Kan; Hirayama, Hiroyuki (2014)