Transient electron scavengers modulate carrier density at a polar/nonpolar perovskite oxide heterojunction

January 13, 2023

Journal Article

Transient electron scavengers modulate carrier density at a polar/nonpolar perovskite oxide heterojunction

Abstract

We show how transient electron scavengers can be utilized to control the carrier concentration at polar/non-polar perovskite interfaces. By combining quantitative synchrotron x-ray-based interface structure determination with ab initio modeling, we demonstrate that Nd vacancy formation and the resulting formation of Nd adatoms, stabilized by oxygen scavengers at the growth front, can quantitatively account for the decreased carrier concentration at the SrTiO3 / n NdTiO3 / SrTiO3(001) heterojunction for n = 1 unit cell. This study yields new insights into growth mechanisms and the effect of transient species and defects on the electronic properties of oxide heterojunctions.

Published: January 13, 2023

Citation

Samarakoon W.S., P.V. Sushko, D. Lee, B. Jalan, H. Zhou, Y. Du, and Z. Feng, et al. 2022. Transient electron scavengers modulate carrier density at a polar/nonpolar perovskite oxide heterojunction. Physical Review Materials 6, no. 10:Art. No. 103405. PNNL-SA-178119. doi:10.1103/PhysRevMaterials.6.103405

Research topics

Materials Sciences

PNNL

Transient electron scavengers modulate carrier density at a polar/nonpolar perovskite oxide heterojunction

Abstract

Citation

Research topics

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