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NM and the band gap diminishes. Boron (B), carbon’s nearest neighbor in the periodic table of chemical elements, is interesting in its own right. [30, 31]. The bonding between B atoms is more complex than in carbon as both 2-center and 3-center B-B bonding configuration are allowed, resulting in a wide variety of bulk B allotropes. For example, boron can form fullerene-like cage, B40− [32]. Various prototypes and synthesis mechanisms of boron-based 2-d nanostrctures have been discussed theoretically. [33-39] Piazza et al. provided first experimental evidence that quasi-planar B36 cluster with a central hexagonal vacancy is stable. [33] However, until very recently, synthesis of the B analogue of graphene, namely, borophene is unsuccessful. Mannix et al. [40] successfully synthesize boronphene. It is found that borophene adopts a corrugated quasi-planar structure, in contrast to the planar honeycomb hexagonal lattice of graphene [1] due to the electron deficiency of boron compared with the carbon. Furthermore, it is confirmed by scanning tunneling microscope (STM) measurements that borophene is a high anisotropic metal [40], in strak contrast to both isotropic zero-gap semimetallic graphene. Peng et al. employed First Principles calculations to study the electronic structure, bonding characteristics, as well as optical and thermodynamic propertiesPDF Image | Magnetic Properties of Borophene Nanoribbons
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