The mechanical design of hybrid graphene/boron nitride nanotransistors: Geometry and interface effects
KE Eshkalak and S Sadeghzadeh and M Jalaly, SOLID STATE COMMUNICATIONS, 270, 82-86 (2018).
DOI: 10.1016/j.ssc.2017.12.001
From electronic point of view, graphene resembles a metal or semi-metal and boron nitride is a dielectric material (band gap = 5.9 eV). Hybridization of these two materials opens band gap of the graphene which has expansive applications in field-effect graphene transistors. In this paper, the effect of the interface structure on the mechanical properties of a hybrid graphene/boron nitride was studied. Young's modulus, fracture strain and tensile strength of the models were simulated. Three likely types (hexagonal, octagonal and decagonal) were found for the interface of hybrid sheet after relaxation. Although C-B bonds at the interface were indicated to result in more promising electrical properties, nitrogen atoms are better choice for bonding to carbon for mechanical applications.
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