Molecular Oxygen-Induced Ferromagnetism and Half-Metallicity in α-BaNaO<sub>4</sub>: A First-Principles Study

Deng, Jun; Guo, Jiangang; Chen, Xiaolong

doi:10.1021/jacs.9b13295

Cited by 19 publications

(14 citation statements)

References 39 publications

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“…Mn 2 FeReO 6 , [15] and Fe 3 O 4 [16] half metals, their spin-up (or spindown) energy gaps are usually rather small (0.4-0.9 eV). In contrast, several HMs such as LaCu 3 Co 2 Re 2 O 12 [17] and BaNaO 4 [18] exhibit relatively large energy gaps (≥1.9 eV), while their corresponding Curie temperatures are considerably lower than RT.…”

Section: Introductionmentioning

confidence: 96%

“…For example, despite the high Curie temperatures observed in NiMnSb, [ 3 ] Co 2 FeSi, [ 14 ] Mn 2 FeReO 6 , [ 15 ] and Fe 3 O 4 [ 16 ] half metals, their spin‐up (or spin‐down) energy gaps are usually rather small (0.4–0.9 eV). In contrast, several HMs such as LaCu 3 Co 2 Re 2 O 12 [ 17 ] and BaNaO 4 [ 18 ] exhibit relatively large energy gaps (≥1.9 eV), while their corresponding Curie temperatures are considerably lower than RT. If one defines a coupled parameter α = T C × E g × M N , where M N represents the normalized saturated moment of each cation, then, characterizing the synthetic performance of HMs, we find that a high T C is often incompatible with a large E g and/or M N , as shown in Figure .…”

Section: Introductionmentioning

confidence: 99%

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Realization of a Half Metal with a Record‐High Curie Temperature in Perovskite Oxides

et al. 2022

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Half metals, in which one spin channel is conducting while the other is insulating with an energy gap, are theoretically considered to comprise 100% spin‐polarized conducting electrons, and thus have promising applications in high‐efficiency magnetic sensors, computer memory, magnetic recording, and so on. However, for practical applications, a high Curie temperature combined with a wide spin energy gap and large magnetization is required. Realizing such a high‐performance combination is a key challenge. Herein, a novel A‐ and B‐site ordered quadruple perovskite oxide LaCu3Fe2Re2O12 with the charge format of Cu2+/Fe3+/Re4.5+ is reported. The strong Cu2+(↑)Fe3+(↑)Re4.5+(↓) spin interactions lead to a ferrimagnetic Curie temperature as high as 710 K, which is the reported record in perovskite‐type half metals thus far. The saturated magnetic moment determined at 300 K is 7.0 μB f.u.−1 and further increases to 8.0 μB f.u.−1 at 2 K. First‐principles calculations reveal a half‐metallic nature with a spin‐down conducting band while a spin‐up insulating band with a large energy gap up to 2.27 eV. The currently unprecedented realization of record Curie temperature coupling with the wide energy gap and large moment in LaCu3Fe2Re2O12 opens a way for potential applications in advanced spintronic devices at/above room temperature.

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Section: Introductionmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

Realization of a Half Metal with a Record‐High Curie Temperature in Perovskite Oxides

et al. 2022

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“…This method can predict stable or metastable crystal structures based on a given chemical compositions under specific external conditions. So far, it has been successfully applied not only to element solids, but also to binary and ternary compounds [31][32][33][34] . Moreover, the ab initio optimizations and mechanical properties calculations for every structure generated by the CALYPSO code were performed using the VASP package 35 with the PBE generalized gradient approximation 36 .…”

Section: Computational Detailsmentioning

confidence: 99%

Crystal structures and mechanical properties of osmium diboride at high pressure

Wang

Liu

Yan

et al. 2021

Sci Rep

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We have investigated the crystal structures and mechanical properties of osmium diboride (OsB2) based on the density functional theory. The structures of OsB2 from 0 to 400 GPa were predicted using the particle swarm optimization algorithm structure prediction technique. The orthorhombic Pmmn structure of OsB2 (oP6-OsB2) was found to be the most stable phase under zero pressure and it will transfer to the hexagonal P63/mmc structure (hP6-OsB2) around 12.4 GPa. Meanwhile, we have discovered a new stable orthorhombic Immm structure (oI12-OsB2) above 379.6 GPa. After that, a thorough and comprehensive investigation on mechanical properties of different OsB2 phases is performed in this work. Further studies showed that the hardness of oP6-OsB2 and hP6-OsB2 at zero pressure is 15.6 and 20.1 GPa, while that for oI12-OsB2 under 400 GPa is 15.4 GPa, indicating that these three phases should be potentially hard materials rather than superhard materials. Finally, the pressure–temperature phase diagram of OsB2 is constructed for the first time by using the quasi-harmonic approximation method. Our results showed that the transition pressures of oP6-OsB2 → hP6-OsB2 and hP6-OsB2 → oI12-OsB2 all decreases appreciably with the increase of temperature.

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“…1. We first propose that NaBaO [32] with the SG of P4/nmm (SG #129) could be an electride with an excess electron located at the cavity 2b, since the BR of the floating bands [denoted by blue-colored lines and irreps in Fig. 4(d)] is elementary, and the average charge center is located at the cavity.…”

Section: Prediction Of Electride Candidatesmentioning

confidence: 99%

Application of topological quantum chemistry in electrides

Nie,

Qian,

Gao

et al. 2020

Preprint

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Molecular Oxygen-Induced Ferromagnetism and Half-Metallicity in α-BaNaO₄: A First-Principles Study

Cited by 19 publications

References 39 publications

Realization of a Half Metal with a Record‐High Curie Temperature in Perovskite Oxides

Realization of a Half Metal with a Record‐High Curie Temperature in Perovskite Oxides

Crystal structures and mechanical properties of osmium diboride at high pressure

Application of topological quantum chemistry in electrides

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Molecular Oxygen-Induced Ferromagnetism and Half-Metallicity in α-BaNaO4: A First-Principles Study

Cited by 19 publications

References 39 publications

Realization of a Half Metal with a Record‐High Curie Temperature in Perovskite Oxides

Realization of a Half Metal with a Record‐High Curie Temperature in Perovskite Oxides

Crystal structures and mechanical properties of osmium diboride at high pressure

Application of topological quantum chemistry in electrides

Contact Info

Product

Resources

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Molecular Oxygen-Induced Ferromagnetism and Half-Metallicity in α-BaNaO₄: A First-Principles Study