English

Native point defects and low $p$-doping efficiency in $Mg_2 (Si,Sn)$ solid solutions: A hybrid-density functional study

Materials Science 2020-09-30 v2

Abstract

We perform hybrid-density functional calculations to investigate the charged defect formation energy of native point defects in Mg2SiMg_2 Si, Mg2SnMg_2 Sn, and their solid solutions. The band gap correction by hybrid-density functional is found to be critical to determine the charged defect density in these materials. For Mg2SiMg_2 Si, MgMg interstitials are dominant and provide unintentional nn-type conductivity. Additionally, as the MgMg vacancies can dominate in MgMg-poor Mg2SnMg_2 Sn, pp-type conductivity is possible for Mg2SnMg_2 Sn. However, the existence of low formation energy defects such as MgSn1+Mg_{Sn}^{1+} and IMg2+I_{Mg}^{2+} in Mg2SnMg_2 Sn and their diffusion can cause severe charge compensation of hole carriers resulting in low pp-type doping efficiency and thermal degradation. Our results indicate that, in addition to the extrinsic doping strategy, alloying of Mg2SiMg_2 Si with Mg2SnMg_2 Sn under MgMg-poor conditions would be necessary to enhance the pp-type conductivity with less charge compensation.

Keywords

Cite

@article{arxiv.2003.08886,
  title  = {Native point defects and low $p$-doping efficiency in $Mg_2 (Si,Sn)$ solid solutions: A hybrid-density functional study},
  author = {Byungki Ryu and Eun-Ae Choi and Sungjin Park and Jaywan Chung and Johannes de Boor and Pawel Ziolkowski and Eckhard Müller and SuDong Park},
  journal= {arXiv preprint arXiv:2003.08886},
  year   = {2020}
}

Comments

Main: 17 pages (including title, abstract, main, references, figure captions. 4 figures). This manuscript is accepted for publication in JALCOM. The article will be published as Gold Open Access

R2 v1 2026-06-23T14:20:26.942Z