Electronic quality factor for thermoelectrics.

Development of thermoelectrics usually involves trial-and-error investigations, including time-consuming synthesis and measurements. Here, we identify the electronic quality factor B(E) for determining the maximum thermoelectric power factor, which can be conveniently estimated by a single measurement of Seebeck coefficient and electrical conductivity of only one sample, not necessarily optimized, at an arbitrary temperature. We demonstrate that thousands of experimental measurements in dozens of materials can all be described by a universal curve and a single material parameter B(E) for each class of materials. Furthermore, any deviation in B(E) with temperature or doping indicated new effects such as band convergence or additional scattering. This makes B(E) a powerful tool for evaluating and guiding the development of thermoelectrics. We demonstrate the power of B(E) to show both p-type GeTe alloys and n-type Mg(3)SbBi alloys as highly competitive materials, at near room temperature, to state-of-the-art Bi(2)Te(3) alloys used in nearly all commercial applications.