A new multifunctional two-dimensional monolayer based on silicon carbide
Abstract: The family of two-dimensional materials is already a reality in the application of several technological devices. It is the motivation behind the search for unknown 2D structures using computational simulations, which can reveal the synthesis potential and their properties, thereby assisting experimentalists in targeting their applications. This is the case with the inorganic graphenylene-like silicon carbide (IGP-SiC), which is proposed and theoretically investigated in this paper for the first time. The IGP-SiC has an indirect band gap energy (3.22 eV) and thermal dynamic stability (∼2100 K). Among its many applications, it has the potential to be used as an anode in next-generation batteries, as a gas sensor, and in band gap engineering in electronic devices.
Author(s): Martins, N.F.; Fabris, G.S.L.; Albuquerque, A.R.; Sambrano, J.R.
FlatChem
Published: November 2021, Volume 30, 100286
