Xiaoyu Xuan scite author profile

The lattice structure of monolayer borophene depends sensitively on the substrate yet is metallic independent of the environment. Here, we show that bilayer borophene on Ag(111) shares the same ground state as its freestanding counterpart that becomes semiconducting with an indirect bandgap of 1.13 eV, as evidenced by an extensive structural search based on first-principles calculations. The bilayer structure is composed of two covalently bonded v 1/12 boron monolayers that are stacked in an AB mode. The interlayer bonds not only localize electronic states that are otherwise metallic in monolayer borophene but also in part decouple the whole bilayer from the substrate, resulting in a quasi-freestanding system. More relevant is that the predicted bilayer model of a global minimum agrees well with recently synthesized bilayer borophene on Ag(111) in terms of lattice constant, topography, and moiré pattern.

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Borophene Concentric Superlattices via Self-Assembly of Twin Boundaries

Liu

Zhang

Liu

et al. 2020

Nano Lett.

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Due to its in-plane structural anisotropy and highly polymorphic nature, borophene has been shown to form a diverse set of linear superlattice structures that are not observed in other two-dimensional materials. Here, we show both theoretically and experimentally that concentric superlattice structures can also be realized in borophene via the energetically preferred self-assembly of coherent twin boundaries. Since borophene twin boundaries do not require the creation of additional lattice defects, they are exceptionally low in energy and thus easier to nucleate and even migrate than grain boundaries in other two-dimensional materials. Due to their high mobility, borophene twin boundaries naturally self-assemble to form novel phases consisting of periodic concentric loops of filled boron hexagons that are further preferred energetically by the rotational registry of borophene on the Ag(111) surface. Compared to defect-free borophene, concentric superlattice borophene phases are predicted to possess enhanced mechanical strength and localized electronic states. Overall, these results establish defect-mediated self-assembly as a pathway to unique borophene structures and properties.

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A multiferroic vanadium phosphide monolayer with ferromagnetic half-metallicity and topological Dirac states

Xuan

Zhang

et al. 2022

Nanoscale Horiz.

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Predicting two-dimensional semiconducting boron carbides

et al. 2019

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Xiaoyu Xuan

Hydrovoltaic technology: from mechanism to applications

Quasi-Freestanding Bilayer Borophene on Ag(111)

Borophene Concentric Superlattices via Self-Assembly of Twin Boundaries

A multiferroic vanadium phosphide monolayer with ferromagnetic half-metallicity and topological Dirac states

Predicting two-dimensional semiconducting boron carbides

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