Abstract
A graphenelike two-dimensional boron honeycomb is inherently prohibited due to its empty \ensuremath{\pi} valence band. Based on chemical intuition and first-principles calculations, we design a two-dimensional crystal ${\mathrm{MoB}}_{4}$ with two graphenelike boron honeycombs sandwiching a triangular molybdenum layer. It has the attractive electronic structure of double Dirac cones near Fermi level with high Fermi velocity, which are contributed by the coupling of Mo $d$ orbitals and B ${p}_{z}$ orbitals. Such a metal stabilized boron honeycomb system could even have both superconductivity and ferromagnetism through appropriate selection of the metal layer, such as manganese. The unique electronic properties of these two-dimensional systems inspire broad interest in nanoelectronics.
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