Doping effects and magnetic instabilities in full-Heusler Fe<sub>2</sub><i>YZ</i><sub>1-x</sub><i>A</i><sub>x</sub> thermoelectric compounds

ORAL

Abstract

Giant thermoelectric power factors have been theoretically predicted on n-doped Fe-based full-Heusler compounds, however, when dealing explicitly with dopants, they may undergo to a magnetic phase transition with a consequent power factor reduction. Using computer experiments, we demonstrate that such transitions is purely related to electronic effects. Exploiting the broader nature of 4d and 5d transition metal orbitals, the appearance of the magnetic instability can be shifted to higher doping regimes, recovering high power factors. The unveiled very large power factors and magnetic fluctuations are fascinatingly very promising respectively for standard thermoelectric and spin-caloritronic device applications.

*F. R. and Ph. G. were suppported by the European Funds for Regional Developments (FEDER) and the Walloon Region in the framework of the operational program “Wallonie-2020.EU” (project: Multifunctional thin films/LoCoTED). S. L. and Ph. G. were supported by the ARC project AIMED 15/19-09 785. Calculations have been performed on the Belgian Céci facilities funded by F.R.S-FNRS Belgium (Grant No 2.5020.1) and Tier-1 supercomputer of the Fédération Wallonie-Bruxelles funded by the Walloon Region (Grant No 1117545).

Presenters

  • Sébastien Lemal

    • University of Liege

Authors

  • Sébastien Lemal

    • University of Liege

  • Fabio Ricci

    • Theoretical Materials Physics, Q-MAT, CESAM, Université de Liège, Belgium
    • University of Liege

  • Matthieu Verstraete

    • University of Liege
    • Nanomat/CESAM, Institut de Physique, Belgium, University of Liege

  • Philippe Ghosez

    • University of Liege
    • Theoretical Materials Physics, Q-MAT, CESAM, University of Liege