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.

二维材料家族已经在多种技术设备的应用中成为现实。这是使用计算模拟寻找未知 2D 结构背后的动机，它可以揭示合成潜力及其特性，从而帮助实验者瞄准他们的应用。这是本文首次提出并理论研究的无机类石墨烯碳化硅（IGP-SiC）的情况。IGP-SiC 具有间接带隙能量 (3.22 eV) 和热动态稳定性 (~2100 K)。在其众多应用中，它有可能用作下一代电池的阳极、气体传感器以及电子设备的带隙工程。