Litcius/Paper detail

Bottom-Up Growth of Monolayer Honeycomb SiC

Craig Polley, H. Fedderwitz, T. Balasubramanian, Alexei Zakharov, Rositsa Yakimova, O. Bäcke, J. Ekman, S. Dash, Sergey Kubatkin, Samuel Lara‐Avila

2023Physical Review Letters107 citationsDOIOpen Access PDF

Abstract

The long theorized two-dimensional allotrope of SiC has remained elusive amid the exploration of graphenelike honeycomb structured monolayers. It is anticipated to possess a large direct band gap (2.5 eV), ambient stability, and chemical versatility. While sp^{2} bonding between silicon and carbon is energetically favorable, only disordered nanoflakes have been reported to date. Here we demonstrate large-area, bottom-up synthesis of monocrystalline, epitaxial monolayer honeycomb SiC atop ultrathin transition metal carbide films on SiC substrates. We find the 2D phase of SiC to be almost planar and stable at high temperatures, up to 1200 °C in vacuum. Interactions between the 2D-SiC and the transition metal carbide surface result in a Dirac-like feature in the electronic band structure, which in the case of a TaC substrate is strongly spin-split. Our findings represent the first step towards routine and tailored synthesis of 2D-SiC monolayers, and this novel heteroepitaxial system may find diverse applications ranging from photovoltaics to topological superconductivity.

Topics & Concepts

MonolayerMaterials scienceSilicon carbideHoneycomb structureEpitaxyHoneycombMonocrystalline siliconPhotovoltaicsCarbideBand gapSubstrate (aquarium)NanotechnologySiliconMXenesCondensed matter physicsOptoelectronicsPhotovoltaic systemLayer (electronics)Composite materialPhysicsBiologyGeologyEcologyOceanographyGraphene research and applicationsTopological Materials and PhenomenaGa2O3 and related materials