Strain‐Driven Self‐Assembled Network of Antidots in Complex Oxide Thin Films

Konstantinović, Z.; Santiso, J.; Balcells, Ll.; Martı́nez, B.

doi:10.1002/smll.200800814

Cited by 22 publications

(34 citation statements)

References 34 publications

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“…In a demonstration of an interesting and unusual heteroepitaxial film morphology resulting from MS growth, Konstantinovic et al [277] have shown that La 0.67 Sr 0.33 MnO 3 grown on misoriented SrTiO 3 (001) nucleates as nanoscale craters (or ''antidots'') that are aligned along terraces. Figure 7 shows AFM images for both the substrates (panels 1) and films (panels 2) for two extents of miscut: 0.278 (mean terrace width ¼ 86 nm) (a), and 0.128 (mean terrace width ¼ 186 nm) (b).…”

Section: Magnetron Sputteringmentioning

confidence: 98%

“…[265][266][267][268][269][270][271][272][273][274][275][276][277] As an example of the interesting and potentially useful physics that has been gleaned from studies of oxides grown by sputtering, we consider the observation of a giant planar Hall effect in epitaxial doped manganites. The planar Hall effect occurs in magnetic materials when the resistivity depends on the angle between the direction of current flow and the magnetization, the effect being otherwise known as anisotropic magnetoresistance.…”

Section: Magnetron Sputteringmentioning

confidence: 99%

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Epitaxial Growth and Properties of Doped Transition Metal and Complex Oxide Films

2009

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The detailed science and technology of crystalline oxide film growth using vacuum methods is reviewed and discussed with an eye toward gaining fundamental insights into the relationships between growth process and parameters, film and interface structure and composition, and electronic, magnetic and photochemical properties. The topic is approached first from a comparative point of view based on the most widely used growth methods, and then on the basis of specific material systems that have generated very high levels of interest. Emphasis is placed on the wide diversity of structural, electronic, optical and magnetic properties exhibited by oxides, and the fascinating results that this diversity of properties can produce when combined with the degrees of freedom afforded by heteroepitaxy.

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Section: Magnetron Sputteringmentioning

confidence: 98%

Section: Magnetron Sputteringmentioning

confidence: 99%

Epitaxial Growth and Properties of Doped Transition Metal and Complex Oxide Films

2009

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“…A careful selection of the growth conditions of LSMO films on top of STO substrates with well defined terrace-step morphology allows obtaining variety of long-range ordered nanostructured LSMO thin films [8,9]. The substrates are typically cut at a vicinal angle and their surface present atomic-height steps, which can induce inherent growth instability at the step edges during film growth playing a crucial role in the final morphology of the films.…”

Section: Resultsmentioning

confidence: 99%

“…The tendency of some oxides towards self-organized growth, forming regular arrays of 3D uniform structures, offers enormous potential for the preparation of nanotemplates that can be used for the fabrication of long range ordered nanostructured systems [8].…”

Section: Introductionmentioning

confidence: 99%

Self-Assembled Nanostructures as Templates for the Integration of Nanoparticles in Oxide Surfaces

Konstantinović¹

2013

J Nanomed Biotherapeut Discov

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Under properly selected growth conditions, complex oxide thin films might exhibit a tendency towards selforganization allowing obtaining regular arrays of three-dimensional nanostructures. This behavior, together with their rich physics, offers enormous potential for the implementation of new nanodevices. Among complex oxides, manganese perovskites exhibiting colossal magnetoresistance and half-metallic character have emerged as promising candidates for the implementation of new spintronic devices.

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“…This difference can be explained by the lattice mismatch that is larger on LSAT (−1.5%) than on SrTiO 3 (−0.6%), although the epitaxial strain is in-plane compressive in both cases. The in-plane compressive strain can favor nanoislands formation, whereas in-plane tensile strain can favor nanopits formation, as shown in some epitaxial (La,Sr)MnO 3 films grown on SrTiO 3 (001) surface by sputtering [66]. Epitaxial growth of films with high surface energy may lead to 3D growth of nanostructures with surface facets of lower energy.…”

Section: Interface Structure and Energymentioning

confidence: 99%

Oxide Single-Crystal Surfaces: A Playground for Self-assembled Oxide Nanostructures

Bachelet

2016

Front. Phys.

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The different (structural and chemical) properties of oxide single-crystal surfaces that can be exploited for the growth of self-assembled oxide nanostructures are briefly reviewed. A large variety of nanostructures can be obtained, controlled by surface and interface structure and chemistry, which play a predominant role in their formation mechanisms at this nanometer scale. It is reminded that surface atomic order, surface steps, chemical terminations or heteroepitaxial strain can be used to generate various nanostructures such as nanodots, nanowires, nanostripes, with controlled size, morphology, and spatial ordering.

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Strain‐Driven Self‐Assembled Network of Antidots in Complex Oxide Thin Films

Cited by 22 publications

References 34 publications

Epitaxial Growth and Properties of Doped Transition Metal and Complex Oxide Films

Epitaxial Growth and Properties of Doped Transition Metal and Complex Oxide Films

Self-Assembled Nanostructures as Templates for the Integration of Nanoparticles in Oxide Surfaces

Oxide Single-Crystal Surfaces: A Playground for Self-assembled Oxide Nanostructures

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