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Items: 1 to 20 of 102

1.

Emergence of the Vortex State in Confined Ferroelectric Heterostructures.

Hsu SL, McCarter MR, Dai C, Hong Z, Chen LQ, Nelson CT, Martin LW, Ramesh R.

Adv Mater. 2019 Sep;31(36):e1901014. doi: 10.1002/adma.201901014. Epub 2019 Jul 19.

PMID:
31322297
2.

Stability of Polar Vortex Lattice in Ferroelectric Superlattices.

Hong Z, Damodaran AR, Xue F, Hsu SL, Britson J, Yadav AK, Nelson CT, Wang JJ, Scott JF, Martin LW, Ramesh R, Chen LQ.

Nano Lett. 2017 Apr 12;17(4):2246-2252. doi: 10.1021/acs.nanolett.6b04875. Epub 2017 Mar 8.

3.

Polarization Rotation in Ferroelectric Tricolor PbTiO3/SrTiO3/PbZr0.2Ti0.8O3 Superlattices.

Lemée N, Infante IC, Hubault C, Boulle A, Blanc N, Boudet N, Demange V, Karkut MG.

ACS Appl Mater Interfaces. 2015 Sep 16;7(36):19906-13. doi: 10.1021/acsami.5b03456. Epub 2015 Sep 4.

PMID:
26315344
4.

Rhombohedral-Orthorhombic Ferroelectric Morphotropic Phase Boundary Associated with a Polar Vortex in BiFeO3 Films.

Geng W, Guo X, Zhu Y, Tang Y, Feng Y, Zou M, Wang Y, Han M, Ma J, Wu B, Hu W, Ma X.

ACS Nano. 2018 Nov 27;12(11):11098-11105. doi: 10.1021/acsnano.8b05449. Epub 2018 Oct 25.

PMID:
30352155
5.

Observation of polar vortices in oxide superlattices.

Yadav AK, Nelson CT, Hsu SL, Hong Z, Clarkson JD, Schlepütz CM, Damodaran AR, Shafer P, Arenholz E, Dedon LR, Chen D, Vishwanath A, Minor AM, Chen LQ, Scott JF, Martin LW, Ramesh R.

Nature. 2016 Feb 11;530(7589):198-201. doi: 10.1038/nature16463. Epub 2016 Jan 27. Erratum in: Nature. 2016 Jun 2;534(7605):138. Schlepüetz, Christian M [Corrected to Schlepütz, Christian M].

6.

Phase coexistence and electric-field control of toroidal order in oxide superlattices.

Damodaran AR, Clarkson JD, Hong Z, Liu H, Yadav AK, Nelson CT, Hsu SL, McCarter MR, Park KD, Kravtsov V, Farhan A, Dong Y, Cai Z, Zhou H, Aguado-Puente P, García-Fernández P, Íñiguez J, Junquera J, Scholl A, Raschke MB, Chen LQ, Fong DD, Ramesh R, Martin LW.

Nat Mater. 2017 Oct;16(10):1003-1009. doi: 10.1038/nmat4951. Epub 2017 Aug 7.

7.

Unusual behavior of the ferroelectric polarization in PbTiO3/SrTiO3 superlattices.

Dawber M, Lichtensteiger C, Cantoni M, Veithen M, Ghosez P, Johnston K, Rabe KM, Triscone JM.

Phys Rev Lett. 2005 Oct 21;95(17):177601. Epub 2005 Oct 17.

8.

In situ X-ray diffraction and the evolution of polarization during the growth of ferroelectric superlattices.

Bein B, Hsing HC, Callori SJ, Sinsheimer J, Chinta PV, Headrick RL, Dawber M.

Nat Commun. 2015 Dec 4;6:10136. doi: 10.1038/ncomms10136.

9.

Diffraction contrast analysis of 90° and 180° ferroelectric domain structures of PbTiO3 thin films.

Aoyagi K, Kiguchi T, Ehara Y, Yamada T, Funakubo H, Konno TJ.

Sci Technol Adv Mater. 2011 May 3;12(3):034403. eCollection 2011 Jun.

10.

Large Scale Two-Dimensional Flux-Closure Domain Arrays in Oxide Multilayers and Their Controlled Growth.

Liu Y, Wang YJ, Zhu YL, Lei CH, Tang YL, Li S, Zhang SR, Li J, Ma XL.

Nano Lett. 2017 Dec 13;17(12):7258-7266. doi: 10.1021/acs.nanolett.7b02615. Epub 2017 Nov 15.

PMID:
29125773
11.

Domain alignment within ferroelectric/dielectric PbTiO3/SrTiO3 superlattice nanostructures.

Park J, Mangeri J, Zhang Q, Yusuf MH, Pateras A, Dawber M, Holt MV, Heinonen OG, Nakhmanson S, Evans PG.

Nanoscale. 2018 Feb 15;10(7):3262-3271. doi: 10.1039/c7nr07203a.

PMID:
29384166
12.

X-ray diffraction studies of 180 degrees ferroelectric domains in PbTiO3/SrTiO3 superlattices under an applied electric field.

Zubko P, Stucki N, Lichtensteiger C, Triscone JM.

Phys Rev Lett. 2010 May 7;104(18):187601. Epub 2010 May 7.

PMID:
20482208
13.

Observation of room-temperature polar skyrmions.

Das S, Tang YL, Hong Z, Gonçalves MAP, McCarter MR, Klewe C, Nguyen KX, Gómez-Ortiz F, Shafer P, Arenholz E, Stoica VA, Hsu SL, Wang B, Ophus C, Liu JF, Nelson CT, Saremi S, Prasad B, Mei AB, Schlom DG, Íñiguez J, García-Fernández P, Muller DA, Chen LQ, Junquera J, Martin LW, Ramesh R.

Nature. 2019 Apr;568(7752):368-372. doi: 10.1038/s41586-019-1092-8. Epub 2019 Apr 17.

14.

Quantification of flexoelectricity in PbTiO3/SrTiO3 superlattice polar vortices using machine learning and phase-field modeling.

Li Q, Nelson CT, Hsu SL, Damodaran AR, Li LL, Yadav AK, McCarter M, Martin LW, Ramesh R, Kalinin SV.

Nat Commun. 2017 Nov 13;8(1):1468. doi: 10.1038/s41467-017-01733-8.

15.

Tuning Interfacial Magnetic Ordering via Polarization Control in Ferroelectric SrTiO3/PbTiO3 Heterostructure.

Lu Y, Wang F, Chen M, Lan Z, Ren Z, Tian H, Yang K.

ACS Appl Mater Interfaces. 2018 Mar 28;10(12):10536-10542. doi: 10.1021/acsami.7b19112. Epub 2018 Mar 19.

PMID:
29481040
16.

Layer selective control of the lattice structure in oxide superlattices.

Frano A, Benckiser E, Lu Y, Wu M, Castro-Colin M, Reehuis M, Boris AV, Detemple E, Sigle W, van Aken P, Cristiani G, Logvenov G, Habermeier HU, Wochner P, Keimer B, Hinkov V.

Adv Mater. 2014 Jan 15;26(2):258-62. doi: 10.1002/adma.201303483. Epub 2013 Oct 24.

PMID:
24155253
17.

Three-dimensional imaging of vortex structure in a ferroelectric nanoparticle driven by an electric field.

Karpov D, Liu Z, Rolo TDS, Harder R, Balachandran PV, Xue D, Lookman T, Fohtung E.

Nat Commun. 2017 Aug 17;8(1):280. doi: 10.1038/s41467-017-00318-9.

18.

Thickness-Dependent Evolution of Piezoresponses and Stripe 90° Domains in (101)-Oriented Ferroelectric PbTiO3 Thin Films.

Feng Y, Tang Y, Ma D, Zhu Y, Zou M, Han M, Ma J, Ma X.

ACS Appl Mater Interfaces. 2018 Jul 25;10(29):24627-24637. doi: 10.1021/acsami.8b07206. Epub 2018 Jul 11.

PMID:
29969007
19.

Interfacial Multiferroics of TiO2/PbTiO3 Heterostructure Driven by Ferroelectric Polarization Discontinuity.

Wang F, Ren Z, Tian H, Yang SA, Xie Y, Lu Y, Jiang J, Han G, Yang K.

ACS Appl Mater Interfaces. 2017 Jan 18;9(2):1899-1906. doi: 10.1021/acsami.6b13183. Epub 2017 Jan 5.

PMID:
27990804
20.

Configuration and local elastic interaction of ferroelectric domains and misfit dislocation in PbTiO3/SrTiO3 epitaxial thin films.

Kiguchi T, Aoyagi K, Ehara Y, Funakubo H, Yamada T, Usami N, Konno TJ.

Sci Technol Adv Mater. 2011 Jun 28;12(3):034413. eCollection 2011 Jun.

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