资源环境科技发展态势分析平台

Solids with ultralow thermal conductivity are of great interest as thermal barrier coatings for insulation or thermoelectrics for energy conversion. However, the theoretical limits of lattice thermal conductivity (kappa) are unclear. In typical crystals a phonon picture is valid, whereas lowest kappa values occur in highly disordered materials where this picture fails and heat is supposedly carried by random walk among uncorrelated oscillators. Here we identify a simple crystal, Tl3VSe4, with a calculated phonon kappa [0.16 Watts per meter-Kelvin (W/m-K)] one-half that of our measured kappa (0.30 W/m-K) at 300 K, approaching disorder kappa values, although Raman spectra, specific heat, and temperature dependence of kappa reveal typical phonon characteristics. Adding a transport component based on uncorrelated oscillators explains the measured kappa and suggests that a two-channel model is necessary for crystals with ultralow kappa.