Optimum band gap of a thermoelectric material.

Transport properties of direct-gap semiconductors are calculated in order to find the best thermoelectrics. Previous calculations on semiconductors with indirect band gaps found that the best thermoelectrics had gaps equal to ${\mathit{nk}}_{\mathit{B}}$T, where n=6-10 and T is the operating temperature of the thermoelectric device. Here we report similar calculations on direct-gap materials. We find that the optimum gap is always greater than 6${\mathit{k}}_{\mathit{B}}$T, but can be much larger depending on the specific mechanism of electron scattering.