ZnO is a complex material, whose properties are very sensitive to preparation conditions due to the presence of various intrinsic defects. Using the modified density functional calculations, we study the relative stability of the nonpolar (1010 and 1120) and the polar (zinc-terminated (0001)-Zn and oxygen-terminated (0001)-O) ZnO surfaces, as well as the influence of oxygen vacancies on their stability and electronic structure. In our study we consider models of surfaces with different positions and concentrations of oxygen vacancies. Particular attention is given to the charge state of the oxygen vacancies and charges of the individual atoms. We find that the 1010 surface is the most stable, while the polar (0001)-Zn surface is the least stable. Our calculations indicate that the configuration with oxygen vacancies at the top of the surface is the most favorable for all studied surfaces. The obtained results for the structural relaxations and energetics are compared with previous theo...retical and experimental data.
Keywords:
ZnO / oxygen vacancies / zinc oxide / density functional study
Source:
YUCOMAT 2024 : 25th Jubilee Annual Conference YUCOMAT 2024 & 13th World Round Table Conference on Sintering XIII WRTCS 2024 : Programme and The Book of Abstracts, 2024, 115-115
Programme and The Book of Abstracts / Twenty-fifth Jubilee Annual Conference YUCOMAT 2024 & Thirteenth World Round Table Conference on Sintering XIII WRTCS 2024, Herceg Novi, Montenegro, September 2 to 6, 2024.
TY - CONF
AU - Belošević Čavor, Jelena
AU - Koteski, Vasil
AU - Ivanovski, Valentin N.
AU - Umićević, Ana
AU - Toprek, Dragan
AU - Kapidžić, Ana
PY - 2024
UR - https://vinar.vin.bg.ac.rs/handle/123456789/14812
AB - ZnO is a complex material, whose properties are very sensitive to preparation conditions due to the presence of various intrinsic defects. Using the modified density functional calculations, we study the relative stability of the nonpolar (1010 and 1120) and the polar (zinc-terminated (0001)-Zn and oxygen-terminated (0001)-O) ZnO surfaces, as well as the influence of oxygen vacancies on their stability and electronic structure. In our study we consider models of surfaces with different positions and concentrations of oxygen vacancies. Particular attention is given to the charge state of the oxygen vacancies and charges of the individual atoms. We find that the 1010 surface is the most stable, while the polar (0001)-Zn surface is the least stable. Our calculations indicate that the configuration with oxygen vacancies at the top of the surface is the most favorable for all studied surfaces. The obtained results for the structural relaxations and energetics are compared with previous theoretical and experimental data.
PB - Belgrade : Materials Research Society of Serbia
C3 - YUCOMAT 2024 : 25th Jubilee Annual Conference YUCOMAT 2024 & 13th World Round Table Conference on Sintering XIII WRTCS 2024 : Programme and The Book of Abstracts
T1 - Modification of ZnO surfaces with oxygen vacancies: density functional study
SP - 115
EP - 115
UR - https://hdl.handle.net/21.15107/rcub_dais_16787
ER -
@conference{
author = "Belošević Čavor, Jelena and Koteski, Vasil and Ivanovski, Valentin N. and Umićević, Ana and Toprek, Dragan and Kapidžić, Ana",
year = "2024",
abstract = "ZnO is a complex material, whose properties are very sensitive to preparation conditions due to the presence of various intrinsic defects. Using the modified density functional calculations, we study the relative stability of the nonpolar (1010 and 1120) and the polar (zinc-terminated (0001)-Zn and oxygen-terminated (0001)-O) ZnO surfaces, as well as the influence of oxygen vacancies on their stability and electronic structure. In our study we consider models of surfaces with different positions and concentrations of oxygen vacancies. Particular attention is given to the charge state of the oxygen vacancies and charges of the individual atoms. We find that the 1010 surface is the most stable, while the polar (0001)-Zn surface is the least stable. Our calculations indicate that the configuration with oxygen vacancies at the top of the surface is the most favorable for all studied surfaces. The obtained results for the structural relaxations and energetics are compared with previous theoretical and experimental data.",
publisher = "Belgrade : Materials Research Society of Serbia",
journal = "YUCOMAT 2024 : 25th Jubilee Annual Conference YUCOMAT 2024 & 13th World Round Table Conference on Sintering XIII WRTCS 2024 : Programme and The Book of Abstracts",
title = "Modification of ZnO surfaces with oxygen vacancies: density functional study",
pages = "115-115",
url = "https://hdl.handle.net/21.15107/rcub_dais_16787"
}
Belošević Čavor, J., Koteski, V., Ivanovski, V. N., Umićević, A., Toprek, D.,& Kapidžić, A.. (2024). Modification of ZnO surfaces with oxygen vacancies: density functional study. in YUCOMAT 2024 : 25th Jubilee Annual Conference YUCOMAT 2024 & 13th World Round Table Conference on Sintering XIII WRTCS 2024 : Programme and The Book of Abstracts
Belgrade : Materials Research Society of Serbia., 115-115.
https://hdl.handle.net/21.15107/rcub_dais_16787
Belošević Čavor J, Koteski V, Ivanovski VN, Umićević A, Toprek D, Kapidžić A. Modification of ZnO surfaces with oxygen vacancies: density functional study. in YUCOMAT 2024 : 25th Jubilee Annual Conference YUCOMAT 2024 & 13th World Round Table Conference on Sintering XIII WRTCS 2024 : Programme and The Book of Abstracts. 2024;:115-115.
https://hdl.handle.net/21.15107/rcub_dais_16787 .
Belošević Čavor, Jelena, Koteski, Vasil, Ivanovski, Valentin N., Umićević, Ana, Toprek, Dragan, Kapidžić, Ana, "Modification of ZnO surfaces with oxygen vacancies: density functional study" in YUCOMAT 2024 : 25th Jubilee Annual Conference YUCOMAT 2024 & 13th World Round Table Conference on Sintering XIII WRTCS 2024 : Programme and The Book of Abstracts (2024):115-115,
https://hdl.handle.net/21.15107/rcub_dais_16787 .
