Role of spontaneous strains on the biphasic nature of partial B-site disorder double perovskite La2NiMnO6

Dexin Yang; Wei Wang; Tao Yang; Giulio I. Lampronti; Huijian Ye; Liankui Wu; Qiyao Yu; Shaohua Lu

doi:10.1063/1.5031486

Role of spontaneous strains on the biphasic nature of partial B-site disorder double perovskite La₂NiMnO₆

Dexin Yang, Wei Wang^*, Tao Yang, Giulio I. Lampronti, Huijian Ye, Liankui Wu, Qiyao Yu, Shaohua Lu

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

28 Citations (Scopus)

Abstract

Double perovskite La₂NiMnO₆ is an attractive spintronic material with magnetocapacitance and magnetoresistance effects. These outstanding properties are associated with the biphasic characteristic and anti-site defects. To study the biphasic nature of La₂NiMnO₆, the spontaneous shear strains, crystal structures, microstructures, element distribution, and magnetic properties were investigated. The first principles density functional theory calculations within the Perdew-Burke-Ernzerhof functional were first used to calculate the static formation enthalpies and crystal structures of La₂NiMnO₆ at different hydrostatic pressures. The coexistence is most likely related to static formation enthalpies and/or spontaneous strains and partly due to the inhomogeneous characteristics of the sample.

Original language	English
Article number	066102
Journal	APL Materials
Volume	6
Issue number	6
DOIs	https://doi.org/10.1063/1.5031486
Publication status	Published - 1 Jun 2018
Externally published	Yes

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abstract = "Double perovskite La2NiMnO6 is an attractive spintronic material with magnetocapacitance and magnetoresistance effects. These outstanding properties are associated with the biphasic characteristic and anti-site defects. To study the biphasic nature of La2NiMnO6, the spontaneous shear strains, crystal structures, microstructures, element distribution, and magnetic properties were investigated. The first principles density functional theory calculations within the Perdew-Burke-Ernzerhof functional were first used to calculate the static formation enthalpies and crystal structures of La2NiMnO6 at different hydrostatic pressures. The coexistence is most likely related to static formation enthalpies and/or spontaneous strains and partly due to the inhomogeneous characteristics of the sample.",

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T1 - Role of spontaneous strains on the biphasic nature of partial B-site disorder double perovskite La2NiMnO6

AU - Yang, Dexin

AU - Wang, Wei

AU - Yang, Tao

AU - Lampronti, Giulio I.

AU - Ye, Huijian

AU - Wu, Liankui

AU - Yu, Qiyao

AU - Lu, Shaohua

PY - 2018/6/1

Y1 - 2018/6/1

N2 - Double perovskite La2NiMnO6 is an attractive spintronic material with magnetocapacitance and magnetoresistance effects. These outstanding properties are associated with the biphasic characteristic and anti-site defects. To study the biphasic nature of La2NiMnO6, the spontaneous shear strains, crystal structures, microstructures, element distribution, and magnetic properties were investigated. The first principles density functional theory calculations within the Perdew-Burke-Ernzerhof functional were first used to calculate the static formation enthalpies and crystal structures of La2NiMnO6 at different hydrostatic pressures. The coexistence is most likely related to static formation enthalpies and/or spontaneous strains and partly due to the inhomogeneous characteristics of the sample.

AB - Double perovskite La2NiMnO6 is an attractive spintronic material with magnetocapacitance and magnetoresistance effects. These outstanding properties are associated with the biphasic characteristic and anti-site defects. To study the biphasic nature of La2NiMnO6, the spontaneous shear strains, crystal structures, microstructures, element distribution, and magnetic properties were investigated. The first principles density functional theory calculations within the Perdew-Burke-Ernzerhof functional were first used to calculate the static formation enthalpies and crystal structures of La2NiMnO6 at different hydrostatic pressures. The coexistence is most likely related to static formation enthalpies and/or spontaneous strains and partly due to the inhomogeneous characteristics of the sample.

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Role of spontaneous strains on the biphasic nature of partial B-site disorder double perovskite La₂NiMnO₆

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