First-principles study on structural, electronic and thermoelectric properties of bulk and surface (001) ATiO3 (A=Pb, Sn) using Density Functional Theory (DFT) / Nurakma Natasya Md Jahangir Alam
The electronic, phase stability, epitaxial strain, and thermoelectric properties of cubic(P3mm) and tetragonal (P4mm) structures of PTO and Sn TO were investigated using density functional theory (DFT). Cubic and tetragonal structures within the GGA-PBE and GGA PBE-sol functional were applied in a p...
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my-uitm-ir.887882024-01-17T01:22:03Z First-principles study on structural, electronic and thermoelectric properties of bulk and surface (001) ATiO3 (A=Pb, Sn) using Density Functional Theory (DFT) / Nurakma Natasya Md Jahangir Alam 2023 Md Jahangir Alam, Nurakma Natasya Electricity The electronic, phase stability, epitaxial strain, and thermoelectric properties of cubic(P3mm) and tetragonal (P4mm) structures of PTO and Sn TO were investigated using density functional theory (DFT). Cubic and tetragonal structures within the GGA-PBE and GGA PBE-sol functional were applied in a pseudo-potential plane wave using the CASTEP computer code respectively. The results showed that the tetragonal PTO and SnTO have the lowest cohesive energy of -39.320 eV and -39.523 eV respectively. Cubic PTO has an indirect band gap of 1.691 eV and SnTO is 1.164 eV while in the tetragonal phase, the band gap value of PTO and Sn TO is 1.703 eV and 1.016 eV, respectively. In the PTO structure, the bond between Pb and O is ionic in the tetragonal state, while there is strong hybridization between Ti-3d and O-2p, which is significant for ferroelectricity. It is shown that the tetragonal is the most stable structure since it has the smallest cohesive energy compared to other structures. The out-of-plane c-axis strain is shown to be largely oriented to PTO under large in-plane a-axis compressive strain. The effect of epitaxial strain proved the surface compatibility in thin film applications. It shows that PTO and SnTO are suitable for surface cleaving. The cubic PbO terminated surface in PTO has a band gap of 1.572 eV gap which is almost equivalent to the bulk structure which is 1.691 eV compared to the TiO2 terminated surface which is 1.366 eV. The type-I surface of SnTO has an indirect band gap of 1.159eV, whereas the type-II surface has a band gap of 1.196 eV. PTO has emerged as a promising material for thermoelectric application. In this study, the underlying mechanism to improve the thermoelectric efficiency of ATiO3 were determined. The thermoelectric parameters of the designed surface structures have been obtained by using the Boltzmann transport equation approximation in the WIEN2K computer code. The properties of the structure, electronic, and thermoelectricity were calculated and analyzed. The surface (001) modification through the AO termination layer has increased the electrical conductivity, thus increasing the power factor. On the other hand, increasing the See beck coefficient, lowering the thermal conductivity and thermopower, improves the figure of merit. It is shown that the thermo electric performance of surface (001) cubic SnTO is higher as compared to PTO making it interesting for lead-free materials in thin-film applications. 2023 Thesis https://ir.uitm.edu.my/id/eprint/88788/ https://ir.uitm.edu.my/id/eprint/88788/2/88788.pdf text en public phd doctoral Universiti Teknologi MARA (UiTM) Faculty of Applied Science Mohamad Taib, Mohamad Fariz (Assoc. Prof. Dr.) Ali, Ab Malik Marwan (Prof. Dr.) |
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Universiti Teknologi MARA |
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UiTM Institutional Repository |
language |
English |
advisor |
Mohamad Taib, Mohamad Fariz (Assoc. Prof. Dr.) Ali, Ab Malik Marwan (Prof. Dr.) |
topic |
Electricity |
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Electricity Md Jahangir Alam, Nurakma Natasya First-principles study on structural, electronic and thermoelectric properties of bulk and surface (001) ATiO3 (A=Pb, Sn) using Density Functional Theory (DFT) / Nurakma Natasya Md Jahangir Alam |
description |
The electronic, phase stability, epitaxial strain, and thermoelectric properties of cubic(P3mm) and tetragonal (P4mm) structures of PTO and Sn TO were investigated using density functional theory (DFT). Cubic and tetragonal structures within the GGA-PBE and GGA PBE-sol functional were applied in a pseudo-potential plane wave using the CASTEP computer code respectively. The results showed that the tetragonal PTO and SnTO have the lowest cohesive energy of -39.320 eV and -39.523 eV respectively. Cubic PTO has an indirect band gap of 1.691 eV and SnTO is 1.164 eV while in the tetragonal phase, the band gap value of PTO and Sn TO is 1.703 eV and 1.016 eV, respectively. In the PTO structure, the bond between Pb and O is ionic in the tetragonal state, while there is strong hybridization between Ti-3d and O-2p, which is significant for ferroelectricity. It is shown that the tetragonal is the most stable structure since it has the smallest cohesive energy compared to other structures. The out-of-plane c-axis strain is shown to be largely oriented to PTO under large in-plane a-axis compressive strain. The effect of epitaxial strain proved the surface compatibility in thin film applications. It shows that PTO and SnTO are suitable for surface cleaving. The cubic PbO terminated surface in PTO has a band gap of 1.572 eV gap which is almost equivalent to the bulk structure which is 1.691 eV compared to the TiO2 terminated surface which is 1.366 eV. The type-I surface of SnTO has an indirect band gap of 1.159eV, whereas the type-II surface has a band gap of 1.196 eV. PTO has emerged as a promising material for thermoelectric application. In this study, the underlying mechanism to improve the thermoelectric efficiency of ATiO3 were determined. The thermoelectric parameters of the designed surface structures have been obtained by using the Boltzmann transport equation approximation in the WIEN2K computer code. The properties of the structure, electronic, and thermoelectricity were calculated and analyzed. The surface (001) modification through the AO termination layer has increased the electrical conductivity, thus increasing the power factor. On the other hand, increasing the See beck coefficient, lowering the thermal conductivity and thermopower, improves the figure of merit. It is shown that the thermo electric performance of surface (001) cubic SnTO is higher as compared to PTO making it interesting for lead-free materials in thin-film applications. |
format |
Thesis |
qualification_name |
Doctor of Philosophy (PhD.) |
qualification_level |
Doctorate |
author |
Md Jahangir Alam, Nurakma Natasya |
author_facet |
Md Jahangir Alam, Nurakma Natasya |
author_sort |
Md Jahangir Alam, Nurakma Natasya |
title |
First-principles study on structural, electronic and thermoelectric properties of bulk and surface (001) ATiO3 (A=Pb, Sn) using Density Functional Theory (DFT) / Nurakma Natasya Md Jahangir Alam |
title_short |
First-principles study on structural, electronic and thermoelectric properties of bulk and surface (001) ATiO3 (A=Pb, Sn) using Density Functional Theory (DFT) / Nurakma Natasya Md Jahangir Alam |
title_full |
First-principles study on structural, electronic and thermoelectric properties of bulk and surface (001) ATiO3 (A=Pb, Sn) using Density Functional Theory (DFT) / Nurakma Natasya Md Jahangir Alam |
title_fullStr |
First-principles study on structural, electronic and thermoelectric properties of bulk and surface (001) ATiO3 (A=Pb, Sn) using Density Functional Theory (DFT) / Nurakma Natasya Md Jahangir Alam |
title_full_unstemmed |
First-principles study on structural, electronic and thermoelectric properties of bulk and surface (001) ATiO3 (A=Pb, Sn) using Density Functional Theory (DFT) / Nurakma Natasya Md Jahangir Alam |
title_sort |
first-principles study on structural, electronic and thermoelectric properties of bulk and surface (001) atio3 (a=pb, sn) using density functional theory (dft) / nurakma natasya md jahangir alam |
granting_institution |
Universiti Teknologi MARA (UiTM) |
granting_department |
Faculty of Applied Science |
publishDate |
2023 |
url |
https://ir.uitm.edu.my/id/eprint/88788/2/88788.pdf |
_version_ |
1794192161840824320 |