Litcius/Paper detail

Intervalley scattering induced significant reduction in lattice thermal conductivities for phosphorene

Yu Wu, Ying Chen, Lei Peng, Hao Zhang, Liujiang Zhou

2023Nanoscale Horizons10 citationsDOI

Abstract

. By quantitatively describing the scattering probability of electrons in different paths combined with electron-phonon coupling matrix element analysis, it is found that multi-valley features of electronic band structure and strong electron-phonon coupling strength make electrons have strong intervalley scattering behavior in β-P. The former plays an important role in the energy conservation condition of the scattering process, and the latter determines the selection rule. Our work elucidates the contribution of higher-order phonon interactions as well as electron-phonon coupling effects to lattice thermal conductivity, and provides a new idea for finding materials with low lattice thermal conductivity induced by intervalley scattering.

Topics & Concepts

Condensed matter physicsPhosphoreneScatteringLattice (music)PhononMaterials sciencePhonon scatteringThermal conductivityThermalCoupling (piping)ElectronPhysicsOpticsBand gapQuantum mechanicsThermodynamicsComposite materialAcoustics2D Materials and ApplicationsMachine Learning in Materials ScienceThermal properties of materials