Bafekry, A. and Faraji, M. and Fadlallah, M.M. and Mortazavi, B. and Ziabari, A.A. and Khatibani, A.B. and Nguyen, C.V. and Ghergherehchi, M. and Gogova, D. (2021) Point Defects in a Two-Dimensional ZnSnN2 Nanosheet: A First-Principles Study on the Electronic and Magnetic Properties. Journal of Physical Chemistry C, 125 (23). pp. 13067-13075. ISSN 19327447
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Abstract
The reduction of dimensionality is a very effective way to achieve appealing properties in two-dimensional materials (2DMs). First-principles calculations can greatly facilitate the prediction of 2DM properties and find possible approaches to enhance their performance. We employed first-principles calculations to gain insight into the impact of different types of point defects (vacancies and substitutional dopants) on the electronic and magnetic properties of a ZnSnN2 (ZSN) monolayer. We show that Zn, Sn, and N + Zn vacancy-defected structures are p-type conducting, while the defected ZSN with a N vacancy is n-type conducting. For substitutional dopants, we found that all doped structures are thermally and energetically stable. The most stable structure is found to be B-doping at the Zn site. The highest work function value (5.0 eV) has been obtained for Be substitution at the Sn site. Li-doping (at the Zn site) and Be-doping (at the Sn site) are p-type conducting, while B-doping (at the Zn site) is n-type conducting. We found that the considered ZSN monolayer-based structures with point defects are magnetic, except those with the N vacancy defects and Be-doped structures. The ab initio molecular dynamics simulations confirm that all substitutionally doped and defected structures are thermally stable. Thus, our results highlight the possibility of tuning the magnetism in ZnSnN2 monolayers through defect engineering. © 2021 American Chemical Society.
Item Type: | Article |
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Divisions: | Faculties > Faculty of Mechanical Engineering |
Identification Number: | 10.1021/acs.jpcc.1c03749 |
Uncontrolled Keywords: | Calculations; Magnetic properties; Magnetism; Molecular dynamics; Monolayers; Point defects; Structural properties; Tin; Tin compounds; Zinc; Ab initio molecular dynamics simulation; Defect engineering; Electronic and magnetic properties; First-principles calculation; First-principles study; Reduction of dimensionality; Stable structures; Two-dimensional materials; Zinc compounds |
Additional Information: | Language of original document: English. |
URI: | http://eprints.lqdtu.edu.vn/id/eprint/8620 |