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Novel Two-dimensional Carbon Allotrope with Strong Electronic Anisotropy
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Abstract
Two novel two-dimensional carbon allotropes comprised of octagons and pentagons are proposed based on the first-principles calculations. The two carbon allotropes, named OPG-L and OPG-Z, are found to have distinct properties. OPG-L is metallic, while OPG-Z is a gapless semimetal. Remarkably, OPG-Z exhibits pronounced electronic anisotropy with highly anisotropic Dirac points at the Fermi level. A tight-binding model is suggested to describe the low-energy quasiparticles, which clarifies the origin of the anisotropic Dirac points. Such an anisotropic electronic characteristic of OPG-Z is expected to have wide implications in nano-electronics.
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Synthesis of Dicyclopenta[a,e]pentalenes via a Molybdenum Carbonyl Mediated Tandem Allenic Pauson−Khand Reaction and the X-ray Crystal Structure of a Planar Dicyclopenta[a,e]pentalene
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