Thermal diffusivity and its lower bound in orthorhombic SnSe

Abstract

The orthorhombic monochalcogenide SnSe has attracted much attention in recent years as a promising high-temperature thermoelectric material. We present a study of its thermal conductivity and specific heat of SnSe between 2~K and 300~K and quantify its anisotropic thermal diffusivity, D. For both crystallographic orientations, thermal diffusivity remains above the recently identified Planckian limit (D > vs2 τP, where vs is the sound velocity and τP= /kBT) and its anisotropy in D is set by the anisotropy of vs. Comparison with cubic members of the IV-VI family leads to a consistent picture, where the diffusivity in all members of the family is set by the product of vs, τP and the 'melting' velocity derived from the melting temperature.