Litcius/Paper detail

Significant Increase of Electron Thermal Conductivity in Dirac Semimetal Beryllonitrene by Doping Beyond Van Hove Singularity

Zhen Tong, Alessandro Pecchia, ChiYung Yam, Hua Bao, Traian Dumitrică, Thomas Frauenheim

2022Advanced Functional Materials29 citationsDOIOpen Access PDF

Abstract

Abstract 2D beryllium polynitrides or beryllonitrene is a newly synthesized layered material displaying anisotropic Dirac cones and van Hove singularity (VHS) located only ≈ 0.5 eV above the Fermi level. Using the Boltzmann transport equation with many‐body effects and first‐principles calculations, it is uncovered that beryllonitrene has an in‐plane anisotropic room‐temperature phonon thermal conductivity ( κ ph ) of 78.6 and 98.8 W mK −1 , and an electron thermal conductivity ( κ e ) of 23.0 and 60.7 W mK −1 , along the in‐plane directions. κ ph is dominated by the large heat capacity flexural acoustic (ZA) modes, which are susceptible to three‐phonon and four‐phonon scatterings but rather immune to scattering onto electrons. Filling the Dirac cones till VHS and above gradually enhances the phonon–electron coupling and monotonically decreases κ ph by up to 55%. Instead, κ e displays unusual nonmonotonic variations with the increase in the carrier density and follows the electron density of states at corresponding Fermi levels. The results shed light on the thermal and electrical transport properties in beryllonitrene and reveal a thermal conductivity modulation mechanism that includes a 60% increase of κ e upon filling of the Dirac cones until VHS.

Topics & Concepts

Condensed matter physicsVan Hove singularityThermal conductivityBoltzmann equationDensity of statesElectronPhysicsMaterials scienceFermi levelPhononDirac fermionAnisotropyDirac (video compression format)GrapheneQuantum mechanicsNeutrinoThermal properties of materialsGraphene research and applicationsAdvanced Thermoelectric Materials and Devices
Significant Increase of Electron Thermal Conductivity in Dirac Semimetal Beryllonitrene by Doping Beyond Van Hove Singularity | Litcius