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Journals >
Journal of Inorganic Materials >
Volume 38 >
Issue 6 >
Page 606 > Article
Journal of Inorganic Materials
Vol. 38, Issue 6, 606 (2023)
Research Progress on Ferroelectric Superlattices
Junliang LIN
1
and Zhanjie WANG
2、*
Author Affiliations
1
1. College of Light Industry, Liaoning University, Shenyang 110036, China
2
2. School of Materials Sciences and Engineering, Shenyang University of Technology, Shenyang 110870, China
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DOI:
10.15541/jim20220601
Cite this Article
Junliang LIN, Zhanjie WANG.
Research Progress on Ferroelectric Superlattices
[J]. Journal of Inorganic Materials, 2023, 38(6): 606
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1. Schematic diagram of composition classifications of ferroelectric superlattices
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2. Schematic diagrams of topological polar structures found in ferroelectric/paraelectric superlattices
[
28
]
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3. Position dependence of average net polarization and oxygen vacancy formation energy calculated from the first principles when an oxygen vacancy is introduced into the (SrTiO
3
)
9
/(SrRuO
3
)
1
superlattice
[
56
]
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4. STEM images and ferroelectric properties of the (SrTiO
3
)
25
/(SrRuO
3
)
2
superlattice
[
59
]
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|
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5. BaTiO
3
/SrTiO
3
/CaTiO
3
tricolor superlattices
[
10
]
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6. Polarization properties of the (BaTiO
3
)
n
/(SrTiO
3
)
n
superlattices under different period thicknesses
[
90
]
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7. 180° domain structures in the (PbTiO
3
)
n
/(SrTiO
3
)
n
superlattices
[
95
]
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8. Electrical properties of the BaTiO
3
/Pb(Zr
0.52
Ti
0.48
)O
3
ferroelectric superlattice
[
9
]
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9. BaTiO
3
/LaNiO
3
[
61
]
and PbZr
0.52
Ti
0.48
O
3
/SrRuO
3
[
62
]
superlattices with different metallic layer thicknesses
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Abstract
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Figures&Tables (9)
Equations (5)
References (104)
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Junliang LIN, Zhanjie WANG.
Research Progress on Ferroelectric Superlattices
[J]. Journal of Inorganic Materials, 2023, 38(6): 606
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Paper Information
Special Issue:
Received: Oct. 13, 2022
Accepted: --
Published Online: Feb. 7, 2023
The Author Email: WANG Zhanjie (wangzj@imr.ac.cn)
DOI:
10.15541/jim20220601
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