In-gap states and strain-tuned band convergence in layered structure trivalent iridate KNaIrO
Iridium oxides (iridates) provide a good platform to study the delicate interplay between spin-orbit coupling (SOC) interactions, electron correlation effects, Hund's coupling and lattice degrees of freedom. An overwhelming number of investigations primarily focus on tetravalent (Ir 4+ , 5d 5 )...
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| Published in | Physical chemistry chemical physics : PCCP Vol. 25; no. 9; pp. 6857 - 6866 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Published |
01.03.2023
|
| Online Access | Get full text |
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| Abstract | Iridium oxides (iridates) provide a good platform to study the delicate interplay between spin-orbit coupling (SOC) interactions, electron correlation effects, Hund's coupling and lattice degrees of freedom. An overwhelming number of investigations primarily focus on tetravalent (Ir
4+
, 5d
5
) and pentavalent (Ir
5+
, 5d
4
) iridates, and far less attention has been paid to iridates with other valence states. Here, we pay our attention to a less-explored trivalent (Ir
3+
, 5d
6
) iridate, K
0.75
Na
0.25
IrO
2
, crystallizing in a triangular lattice with edge-sharing IrO
6
octahedra and alkali metal ion intercalated [IrO
2
]
−
layers, offering a good platform to explore the interplay between different degrees of freedom. We theoretically determine the preferred occupied positions of the alkali metal ions from energetic viewpoints and reproduce the experimentally observed semiconducting behavior and nonmagnetic (NM) properties of K
0.75
Na
0.25
IrO
2
. The SOC interactions play a critical role in the band dispersion, resulting in NM
J
eff
= 0 states. More intriguingly, our electronic structure not only uncovers the presence of intrinsic in-gap states and nearly free electron character for the conduction band minimum, but also explains the abnormally low activation energy in K
0.75
Na
0.25
IrO
2
. Particularly, the band edge can be effectively modulated by mechanical strain, and the in-gap states feature enhanced band-convergence characteristics by 6% compressive strain, which will greatly enhance the electrical conductivity of K
0.75
Na
0.25
IrO
2
. The present work sheds new light on the unconventional electronic structures of trivalent iridates, indicating their promising application as a nanoelectronic and thermoelectric material, which will attract extensive interest and stimulate experimental works to further understand the unprecedented electronic structures and exploit potential applications of the triangular trivalent iridate.
K
0.75
Na
0.25
IrO
2
crystallizes in a triangular lattice with edge-sharing IrO
6
octahedra and [IrO
2
]
−
layers, shows intrinsic in-gap states, nearly-free-electron feature, enhanced band-convergence under uniaxial strain and promising application prospect. |
|---|---|
| AbstractList | Iridium oxides (iridates) provide a good platform to study the delicate interplay between spin-orbit coupling (SOC) interactions, electron correlation effects, Hund's coupling and lattice degrees of freedom. An overwhelming number of investigations primarily focus on tetravalent (Ir
4+
, 5d
5
) and pentavalent (Ir
5+
, 5d
4
) iridates, and far less attention has been paid to iridates with other valence states. Here, we pay our attention to a less-explored trivalent (Ir
3+
, 5d
6
) iridate, K
0.75
Na
0.25
IrO
2
, crystallizing in a triangular lattice with edge-sharing IrO
6
octahedra and alkali metal ion intercalated [IrO
2
]
−
layers, offering a good platform to explore the interplay between different degrees of freedom. We theoretically determine the preferred occupied positions of the alkali metal ions from energetic viewpoints and reproduce the experimentally observed semiconducting behavior and nonmagnetic (NM) properties of K
0.75
Na
0.25
IrO
2
. The SOC interactions play a critical role in the band dispersion, resulting in NM
J
eff
= 0 states. More intriguingly, our electronic structure not only uncovers the presence of intrinsic in-gap states and nearly free electron character for the conduction band minimum, but also explains the abnormally low activation energy in K
0.75
Na
0.25
IrO
2
. Particularly, the band edge can be effectively modulated by mechanical strain, and the in-gap states feature enhanced band-convergence characteristics by 6% compressive strain, which will greatly enhance the electrical conductivity of K
0.75
Na
0.25
IrO
2
. The present work sheds new light on the unconventional electronic structures of trivalent iridates, indicating their promising application as a nanoelectronic and thermoelectric material, which will attract extensive interest and stimulate experimental works to further understand the unprecedented electronic structures and exploit potential applications of the triangular trivalent iridate.
K
0.75
Na
0.25
IrO
2
crystallizes in a triangular lattice with edge-sharing IrO
6
octahedra and [IrO
2
]
−
layers, shows intrinsic in-gap states, nearly-free-electron feature, enhanced band-convergence under uniaxial strain and promising application prospect. |
| Author | Tang, Xin Gong, Xujia Zhou, Huanfu Autieri, Carmine Ma, Jiafeng Ming, Xing Zheng, Xiaojun |
| AuthorAffiliation | Ministry of Education International Research Centre Magtop School of Materials Science and Engineering College of Science Key Lab of New Processing Technology for Nonferrous Metal & Materials Guilin University of Technology Polish Academy of Sciences |
| AuthorAffiliation_xml | – name: Guilin University of Technology – name: Polish Academy of Sciences – name: School of Materials Science and Engineering – name: Ministry of Education – name: College of Science – name: Key Lab of New Processing Technology for Nonferrous Metal & Materials – name: International Research Centre Magtop |
| Author_xml | – sequence: 1 givenname: Xujia surname: Gong fullname: Gong, Xujia – sequence: 2 givenname: Carmine surname: Autieri fullname: Autieri, Carmine – sequence: 3 givenname: Huanfu surname: Zhou fullname: Zhou, Huanfu – sequence: 4 givenname: Jiafeng surname: Ma fullname: Ma, Jiafeng – sequence: 5 givenname: Xin surname: Tang fullname: Tang, Xin – sequence: 6 givenname: Xiaojun surname: Zheng fullname: Zheng, Xiaojun – sequence: 7 givenname: Xing surname: Ming fullname: Ming, Xing |
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| Notes | 2 Na Electronic supplementary information (ESI) available: Schematics of ten types of interlayer alkali ion occupancy in the crystallographic unit cell, optimized lattice constants of K 0.25 IrO 0.75 https://doi.org/10.1039/d2cp04806j projected band structures and the density of states, and the evolutions of the band structure along with the applied strain. See DOI |
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| Title | In-gap states and strain-tuned band convergence in layered structure trivalent iridate KNaIrO |
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