Data-driven analysis of electron relaxation times in PbTe-type thermoelectric materials

Data mining from published papers can generate large experimental datasets that have been overlooked in computational materials informatics. We developed an open web system Starrydata2 to accelerate a comprehensive digitization of data of materials from as-reported plot images in published papers, without sample selection based on performance. By plotting results obtained from our dataset on experimental thermoelectric properties of 434 samples of rock-salt-type (PbTe-type) thermoelectric materials, we revealed differences in electronic structure of parent compounds PbTe, PbSe, PbS, and SnTe from just experimental data. We observed that the calculated Seebeck coefficients were fairly consistent with experimental data for n-type PbTe but not for p-type PbTe, indicating possible modifications in its valence-band electronic structure. We evaluated the electron relaxation time τ el from 207 reported samples of n-type PbTe by combining calculations and experimental data. We found that τ el is not a constant but varies by at least two orders of magnitude. Achieving long τ el was suggested to be critical in increasing the thermoelectric figure of merit ZT. Reproduced with permission from Thermoelectrics Society of Japan.