Potency of Extended X-ray Absorption Fine Structure Spectroscopy toward the Determination of Individual Bond Gru?neisen Parameter for High Thermoelectric Performance

Si-Ge is a well-known disordered alloy exhibiting high anharmonicity. These two features, disorder and anharmonicity, arise due to the unique nature of bonding instead of structural complexity and are beneficial as they limit the thermal conduction and are widely used in high-temperature thermoelectric applications. In this regard, a comprehensive understanding of the nature of interatomic bonds and the calculation of the Gru''neisen parameter, which is a characteristic metric of anharmonicity, of the individual bond are essential to design a crystalline solid along with the development of a high-throughput thermoelectric alloy exhibiting ultralow lattice thermal conductivity. Here, we demonstrate the origin of the low lattice thermal conductivity, rcl, of similar to 0.8 and 0.4 Wm-1 K-1 for the transition-metal (Ni and Cr)-doped Si-Ge alloy, respectively, due to the difference in the anharmonic pair potential achieved using synchrotron based X-ray absorption fine structure spectroscopy. The technique enables the determination of the Gru''neisen parameter of the individual bond in the alloy and thus reveals the unpaired electron-induced bond anharmonicities and bonding heterogeneity. The technique also determines the bond Gru''neisen parameter more precisely in comparison to the values obtained from the speed of sound, as the latter neglects the existence of the soft TO mode, which also contributes to lattice dynamics. Thus, the synergistic presence of (i) heteroatoms as point scatters (mass contrast), (ii) bonding anharmonicities, and (iii) electron-phonon scattering suppresses the lattice thermal conductivity beyond the theoretical alloy limit. Furthermore, the analysis imparts a conception for the estimation of the bond Gru''neisen parameter through the acquisition and analysis of extended X-ray analysis of fine structure (EXAFS) spectra.

Automated summary

This article investigates the disorder and anharmonicity features of Si-Ge alloy and their effect on thermal conduction. The difference in anharmonic pair potential induced by transition metals (Ni and Cr) doping is revealed using synchrotron-based X-ray absorption fine structure spectroscopy. The determination of the Gru''neisen parameter of individual bonds in the alloy and the understanding of electron-induced bond anharmonicities and bonding heterogeneity are demonstrated. This research is important for designing high-throughput thermoelectric alloys with ultralow lattice thermal conductivity and for understanding the anharmonicity of bonds.