Add to ORKGHighly ordered and spatially coherent cobalt slanted columnar thin films (SCTFs) were deposited by glancing angle deposition onto silicon substrates, and subsequently oxidized by annealing at 475˚C. Scanning electron microscopy, Raman scattering, generalized ellipsometry, and density functional theory investigations reveal shape-invariant transformation of the slanted nanocolumns from metallic to transparent metal-oxide core-shell structures with properties characteristic of spinel cobalt oxide. We find passivation of Co-SCTFs yielding Co-Al2O3 core-shell structures produced by conformal deposition of a few nanometers of alumina using atomic layer deposition fully prevents cobalt oxidation in ambient and from annealing up to 475˚C
Iron cobaltite thin films with spinel structure have been elaborated by radio-frequency (RF) magnetr...
Epitaxial cobalt films in the thickness range of 3.9 to 8.6 nm were deposited on Al2O3[112¯0] substr...
Polar oxide interfaces are an important focus of research due to their novel functionality which is ...
Highly ordered and spatially coherent cobalt slanted columnar thin films (SCTFs) were deposited by g...
Optical properties of passivated metal slanted columnar thin films from cobalt within the visible sp...
We report on optical, structural, and magnetic properties of two substantially different cobalt nano...
The work investigates the selective deposition of cobalt oxide via atomic layer deposition. Methoxys...
Porous films of cobalt nanoparticles have been obtained by sputter gas aggregation and controllably ...
Cobalt oxide thin films (thickness 2000 Å) with different stoichiometries were deposited by reactive...
Nanocrystalline films of cobalt oxide have been prepared on glass slides by chemical bath deposition...
In this work, we have studied the applicability of Co(BTSA)(2)(THF) [BTSA = bis(trimethylsilyl)amido...
International audienceCobalt surface oxides grown on Pt(111) by depositing Co and dosing with molecu...
In this report we present the growth process of the cobalt oxide system using reactive electron beam...
Cobalt oxide nanopetals were grown on silicon electrodes by heat-treating metallic cobalt films depo...
Thin films of cobalt oxide have been deposited on various substrates, such as glass, Si(100). SrTiO3...
Iron cobaltite thin films with spinel structure have been elaborated by radio-frequency (RF) magnetr...
Epitaxial cobalt films in the thickness range of 3.9 to 8.6 nm were deposited on Al2O3[112¯0] substr...
Polar oxide interfaces are an important focus of research due to their novel functionality which is ...
Highly ordered and spatially coherent cobalt slanted columnar thin films (SCTFs) were deposited by g...
Optical properties of passivated metal slanted columnar thin films from cobalt within the visible sp...
We report on optical, structural, and magnetic properties of two substantially different cobalt nano...
The work investigates the selective deposition of cobalt oxide via atomic layer deposition. Methoxys...
Porous films of cobalt nanoparticles have been obtained by sputter gas aggregation and controllably ...
Cobalt oxide thin films (thickness 2000 Å) with different stoichiometries were deposited by reactive...
Nanocrystalline films of cobalt oxide have been prepared on glass slides by chemical bath deposition...
In this work, we have studied the applicability of Co(BTSA)(2)(THF) [BTSA = bis(trimethylsilyl)amido...
International audienceCobalt surface oxides grown on Pt(111) by depositing Co and dosing with molecu...
In this report we present the growth process of the cobalt oxide system using reactive electron beam...
Cobalt oxide nanopetals were grown on silicon electrodes by heat-treating metallic cobalt films depo...
Thin films of cobalt oxide have been deposited on various substrates, such as glass, Si(100). SrTiO3...
Iron cobaltite thin films with spinel structure have been elaborated by radio-frequency (RF) magnetr...
Epitaxial cobalt films in the thickness range of 3.9 to 8.6 nm were deposited on Al2O3[112¯0] substr...
Polar oxide interfaces are an important focus of research due to their novel functionality which is ...