Ferroelectricity in artificial bicolor oxide superlattices

Sung Seok A. Seo; Jun Hee Lee; Ho Nyung Lee; Matthew F. Chisholm; Woo Seok Choi; Dong Jik Kim; Ji Young Jo; Hanchul Kim; Jaejun Yu; Tae Won Noh

doi:10.1002/adma.200601357

Ferroelectricity in artificial bicolor oxide superlattices

Sung Seok A. Seo, Jun Hee Lee, Ho Nyung Lee, Matthew F. Chisholm, Woo Seok Choi, Dong Jik Kim, Ji Young Jo, Hanchul Kim, Jaejun Yu, Tae Won Noh

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

23 Scopus citations

Abstract

The ferroelectric growth and properties of high-quality artificial bicolor oxide superlattices composed of two perovskites were analyzed. The bicolor superlattice were grown on a single-crystalline substrates by using pulsed laser deposition after growing conducting films as a bottom electrodes on a single-stepped TiO²-terminated SrTiO³(STO) substrates. The ferroelectric hysterisis loops are found to be affected by the leakage current or the trapped charges at interfaces while ionic displacements in the fully relaxed structure break the inversion symmetry and yield a new polarization in each unit cell. The superlattice shows a potential-energy surface with a single minimum at zero polarization while the ionic motions in ferroelectrics break the inversion symmetry and provide the net dipole moments for displacive ferroelectrics.

Original language	English
Pages (from-to)	2460-2464
Number of pages	5
Journal	Advanced Materials
Volume	19
Issue number	18
DOIs	https://doi.org/10.1002/adma.200601357
State	Published - Sep 17 2007

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title = "Ferroelectricity in artificial bicolor oxide superlattices",

abstract = "The ferroelectric growth and properties of high-quality artificial bicolor oxide superlattices composed of two perovskites were analyzed. The bicolor superlattice were grown on a single-crystalline substrates by using pulsed laser deposition after growing conducting films as a bottom electrodes on a single-stepped TiO2-terminated SrTiO3(STO) substrates. The ferroelectric hysterisis loops are found to be affected by the leakage current or the trapped charges at interfaces while ionic displacements in the fully relaxed structure break the inversion symmetry and yield a new polarization in each unit cell. The superlattice shows a potential-energy surface with a single minimum at zero polarization while the ionic motions in ferroelectrics break the inversion symmetry and provide the net dipole moments for displacive ferroelectrics.",

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T1 - Ferroelectricity in artificial bicolor oxide superlattices

AU - Seo, Sung Seok A.

AU - Lee, Jun Hee

AU - Lee, Ho Nyung

AU - Chisholm, Matthew F.

AU - Choi, Woo Seok

AU - Kim, Dong Jik

AU - Jo, Ji Young

AU - Kim, Hanchul

AU - Yu, Jaejun

AU - Noh, Tae Won

PY - 2007/9/17

Y1 - 2007/9/17

N2 - The ferroelectric growth and properties of high-quality artificial bicolor oxide superlattices composed of two perovskites were analyzed. The bicolor superlattice were grown on a single-crystalline substrates by using pulsed laser deposition after growing conducting films as a bottom electrodes on a single-stepped TiO2-terminated SrTiO3(STO) substrates. The ferroelectric hysterisis loops are found to be affected by the leakage current or the trapped charges at interfaces while ionic displacements in the fully relaxed structure break the inversion symmetry and yield a new polarization in each unit cell. The superlattice shows a potential-energy surface with a single minimum at zero polarization while the ionic motions in ferroelectrics break the inversion symmetry and provide the net dipole moments for displacive ferroelectrics.

AB - The ferroelectric growth and properties of high-quality artificial bicolor oxide superlattices composed of two perovskites were analyzed. The bicolor superlattice were grown on a single-crystalline substrates by using pulsed laser deposition after growing conducting films as a bottom electrodes on a single-stepped TiO2-terminated SrTiO3(STO) substrates. The ferroelectric hysterisis loops are found to be affected by the leakage current or the trapped charges at interfaces while ionic displacements in the fully relaxed structure break the inversion symmetry and yield a new polarization in each unit cell. The superlattice shows a potential-energy surface with a single minimum at zero polarization while the ionic motions in ferroelectrics break the inversion symmetry and provide the net dipole moments for displacive ferroelectrics.

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Ferroelectricity in artificial bicolor oxide superlattices

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