English

n-type electrical conduction in SnS thin films

Materials Science 2021-12-23 v3

Abstract

Tin monosulfide (SnS) usually exhibits p-type conduction due to the low formation enthalpy of acceptor-type defects, and as a result n-type SnS thin films have never been obtained. This study realizes n-type conduction in SnS thin films for the first time by using RF-magnetron sputtering with Cl doping and sulfur plasma source during deposition. N-type SnS thin films are obtained at all the substrate temperatures employed in this study (221-341 C), exhibiting carrier concentrations and Hall mobilities of ~2 x 10 18 cm-3 and 0.1-1 cm V-1s-1, respectively. The films prepared without sulfur plasma source, on the other hand, exhibit p-type conduction despite containing a comparable amount of Cl donors. This is likely due to a significant amount of acceptor-type defects originating from sulfur deficiency in p-type films, which appears as a broad optical absorption within the band gap. The demonstration of n-type SnS thin films in this study is a breakthrough for the realization of SnS homojunction solar cells, which are expected to have a higher conversion efficiency than the conventional heterojunction SnS solar cells.

Keywords

Cite

@article{arxiv.2107.05280,
  title  = {n-type electrical conduction in SnS thin films},
  author = {Issei Suzuki and Sakiko Kawanishi and Sage R. Bauers and Andriy Zakutayev and Zexin Lin and Satoshi Tsukuda and Hiroyuki Shibata and Minseok Kim and Hiroshi Yanagi and Takahisa Omata},
  journal= {arXiv preprint arXiv:2107.05280},
  year   = {2021}
}

Comments

6 pages, 4 figures, 1 table

R2 v1 2026-06-24T04:05:46.496Z