Prediction of quantum spin Hall and Rashba effects in two-dimensional ilmenite oxides
Using first-principles calculations, we investigate the structural, electronic, and topological properties of two-dimensional (2D) pristine ilmenite oxides ABO3 (A = Au, Ag, or Cu; and B = Bi, Sb, or As) and their corresponding Janus structures. Phonon dispersions reveal the dynamic stability of the...
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sg-ntu-dr.10356-1741952024-03-25T15:34:56Z Prediction of quantum spin Hall and Rashba effects in two-dimensional ilmenite oxides Arokiasamy, Susaiammal Macam, Gennevieve M. Villaos, Rovi Angelo B. Maghirang III, Aniceto B. Huang, Zhi-Quan Hsu, Chia-Hsiu Chang, Guoqing Chuang, Feng-Chuan School of Physical and Mathematical Sciences Physics Ilmenite oxides 2D topological insulator Using first-principles calculations, we investigate the structural, electronic, and topological properties of two-dimensional (2D) pristine ilmenite oxides ABO3 (A = Au, Ag, or Cu; and B = Bi, Sb, or As) and their corresponding Janus structures. Phonon dispersions reveal the dynamic stability of these compounds. Interestingly, pristine CuBiO3 and AuBiO3, and Janus Cu0.5Ag0.5BiO3, Au0.5Cu0.5BiO3, Au0.5Ag0.5BiO3, and CuBi0.5As0.5O3 are topological insulators, while AuBi0.5As0.5O3, CuBi0.5Sb0.5O3, and AuBi0.5Sb0.5O3 are topological semimetals, as confirmed by their Z2 invariance and conducting edge states under the hybrid functional approach. Moreover, we found van Hove singularities in Au0.5Ag0.5BiO3 and Cu0.5Ag0.5BiO3 near the Fermi level, suggesting the coexistence of superconductivity and nontrivial topology. Finally, isotropic Rashba spin-splitting is studied in detail for Au0.5Ag0.5BiO3. Our findings demonstrate that 2D ilmenite oxides can be a new material playground for potential spintronic applications. National Research Foundation (NRF) Submitted/Accepted version F.-C.C is grateful for the support from the National Center for Theoretical Sciences of Taiwan through Grant No. NSTC-110-2112-M110-013-MY3. He also appreciates the National Center for High-performance Computing for granting access to their computing resources and facilities. The support received from the National Research Foundation, Singapore under its NRF Fellowship Award (NRFNRFF13-2021-0010) is duly acknowledged by G.C. 2024-03-20T02:02:46Z 2024-03-20T02:02:46Z 2023 Journal Article Arokiasamy, S., Macam, G. M., Villaos, R. A. B., Maghirang III, A. B., Huang, Z., Hsu, C., Chang, G. & Chuang, F. (2023). Prediction of quantum spin Hall and Rashba effects in two-dimensional ilmenite oxides. Chinese Journal of Physics, 86, 242-254. https://dx.doi.org/10.1016/j.cjph.2023.09.022 0577-9073 https://hdl.handle.net/10356/174195 10.1016/j.cjph.2023.09.022 86 242 254 en NRF-NRFF13-2021-0010 Chinese Journal of Physics © 2023 The Physical Society of the Republic of China (Taiwan). Published by Elsevier B.V. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1016/j.cjph.2023.09.022. application/pdf |
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Physics Ilmenite oxides 2D topological insulator |
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Physics Ilmenite oxides 2D topological insulator Arokiasamy, Susaiammal Macam, Gennevieve M. Villaos, Rovi Angelo B. Maghirang III, Aniceto B. Huang, Zhi-Quan Hsu, Chia-Hsiu Chang, Guoqing Chuang, Feng-Chuan Prediction of quantum spin Hall and Rashba effects in two-dimensional ilmenite oxides |
| description |
Using first-principles calculations, we investigate the structural, electronic, and topological properties of two-dimensional (2D) pristine ilmenite oxides ABO3 (A = Au, Ag, or Cu; and B = Bi, Sb, or As) and their corresponding Janus structures. Phonon dispersions reveal the dynamic stability of these compounds. Interestingly, pristine CuBiO3 and AuBiO3, and Janus Cu0.5Ag0.5BiO3, Au0.5Cu0.5BiO3, Au0.5Ag0.5BiO3, and CuBi0.5As0.5O3 are topological insulators, while AuBi0.5As0.5O3, CuBi0.5Sb0.5O3, and AuBi0.5Sb0.5O3 are topological semimetals, as confirmed by their Z2 invariance and conducting edge states under the hybrid functional approach. Moreover, we found van Hove singularities in Au0.5Ag0.5BiO3 and Cu0.5Ag0.5BiO3 near the Fermi level, suggesting the coexistence of superconductivity and nontrivial topology. Finally, isotropic Rashba spin-splitting is studied in detail for Au0.5Ag0.5BiO3. Our findings demonstrate that 2D ilmenite oxides can be a new material playground for potential spintronic applications. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Arokiasamy, Susaiammal Macam, Gennevieve M. Villaos, Rovi Angelo B. Maghirang III, Aniceto B. Huang, Zhi-Quan Hsu, Chia-Hsiu Chang, Guoqing Chuang, Feng-Chuan |
| format |
Article |
| author |
Arokiasamy, Susaiammal Macam, Gennevieve M. Villaos, Rovi Angelo B. Maghirang III, Aniceto B. Huang, Zhi-Quan Hsu, Chia-Hsiu Chang, Guoqing Chuang, Feng-Chuan |
| author_sort |
Arokiasamy, Susaiammal |
| title |
Prediction of quantum spin Hall and Rashba effects in two-dimensional ilmenite oxides |
| title_short |
Prediction of quantum spin Hall and Rashba effects in two-dimensional ilmenite oxides |
| title_full |
Prediction of quantum spin Hall and Rashba effects in two-dimensional ilmenite oxides |
| title_fullStr |
Prediction of quantum spin Hall and Rashba effects in two-dimensional ilmenite oxides |
| title_full_unstemmed |
Prediction of quantum spin Hall and Rashba effects in two-dimensional ilmenite oxides |
| title_sort |
prediction of quantum spin hall and rashba effects in two-dimensional ilmenite oxides |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174195 |
| _version_ |
1795302091000905728 |