Magnetically tuned thermoelectric properties of metal-oxides: a review

Abstract

Abstract In recent years, research on thermoelectric materials has garnered considerable attention, owing to their potential to offer efficient and environmentally friendly energy solutions. Metal oxides have emerged as strong contenders for thermoelectric materials, offering a promising avenue for implementing diverse mechanisms aimed at achieving higher thermoelectric efficiency. In this review, we investigate the influence of magnetic fields on the thermoelectric properties of oxide-based materials. Drawing insights from existing literature, we provide a comprehensive overview of how magnetically tuned Seebeck coefficients, thermal conductivity, and electrical resistivity impact the thermoelectric performance of oxide-based thermoelectrics. Literature available on magnetic field tuning of Spin Seebeck effect and anomalous Nernst effect for improved efficiency in oxide-based systems, have also been included in this review.