about
Ti diffusion in (001) SrTiO3-CoFe2O4 epitaxial heterostructures: blocking role of a MgAl2O4 buffer.Engineering two-dimensional superconductivity and Rashba spin-orbit coupling in LaAlO₃/SrTiO₃ quantum wells by selective orbital occupancy.Polar domain walls trigger magnetoelectric coupling.Unravelling and controlling hidden imprint fields in ferroelectric capacitors.Electric control of magnetism at the Fe/BaTiO₃ interface.Tailored surfaces of perovskite oxide substrates for conducted growth of thin films.Monolithic integration of room-temperature multifunctional BaTiO3-CoFe2O4 epitaxial heterostructures on Si(001).Direct imaging of delayed magneto-dynamic modes induced by surface acoustic wavesHigh mobility conduction at (110) and (111) LaAlO3/SrTiO3 interfaces.Room-temperature antiferromagnetic memory resistor.The direct magnetoelectric effect in ferroelectric-ferromagnetic epitaxial heterostructures.Anisotropic magnetoresistance in an antiferromagnetic semiconductor.Hidden Magnetic States Emergent Under Electric Field, In A Room Temperature Composite Magnetoelectric Multiferroic.Electric-Field-Adjustable Time-Dependent Magnetoelectric Response in Martensitic FeRh Alloy.Evidence of a minority monoclinic LaNiO2.5 phase in lanthanum nickelate thin films.Tailoring Lattice Strain and Ferroelectric Polarization of Epitaxial BaTiO3 Thin Films on Si(001).Competition between Polar and Nonpolar Lattice Distortions in Oxide Quantum Wells: New Critical Thickness at Polar Interfaces.Magnetophotonic response of three-dimensional opals.Tunnel junctions with multiferroic barriers.The Shortening of MWNT-SPION Hybrids by Steam Treatment Improves Their Magnetic Resonance Imaging Properties In Vitro and In Vivo.Large room-temperature electroresistance in dual-modulated ferroelectric tunnel barriers.Mn 3d bands and Y-O hybridization of hexagonal and orthorhombic YMnO3 thin films.Magnetoresistance in Hybrid Pt/CoFe2O4 Bilayers Controlled by Competing Spin Accumulation and Interfacial Chemical Reconstruction.Evidence of the Anomalous Charge StateFe4+57in the Nuclear Decay ofCo3+57Mössbauer characterization of LixFe3O4Structural and magnetic characterization of the lithiated iron oxide LixFe3O4Mo¨ssbauer emission spectroscopy in La2NiO4Magnetic order or charge-density wave inLa2NiO4by Mössbauer spectroscopyDiamagnetic Susceptibility and Root Growth Responses to Magnetic Fields inLens culinaris, Glycine soja, andTriticum aestivumThe 2016 oxide electronic materials and oxide interfaces roadmapInstability and Surface Potential Modulation of Self-Patterned (001)SrTiO3 SurfacesTuning the local frictional and electrostatic responses of nanostructured SrTiO3—surfaces by self-assembled molecular monolayersGiant Optical Polarization Rotation Induced by Spin-Orbit Coupling in PolaronsAging of Sr2FeMoO6 and related oxidesFerromagnetism in co-doped zno particles prepared by vaporization–condensation in a solar image furnaceMagnetic properties of Co-doped ZnO nanoparticles prepared by vaporization-condensation in a solar reactorAntisite defects and magnetoresistance in Sr2FeMoO6double perovskiteGrowth of epitaxial YSZ films on LiNbO3 substratesLow-temperature magnetotransport in nanometric half-metallic ferromagnetic perovskitesMagnetotransport properties of nanometric La2/3Sr1/3MnO3 granular perovskites
P50
Q34998007-DC61D72C-D4B6-4D66-8115-39E0977A6182Q35020601-8C690847-54CB-44DE-B942-0D621CD6A04FQ36099073-12E604B0-E5EC-4F4A-81B9-7A385D001D95Q36845883-0472F7D9-8CD5-446A-BBE3-38A0CE37D4DAQ37617557-B7569440-B2BF-46A0-BF58-D3854D5B8EFDQ38189651-9ED08977-745B-48C7-92DE-47E257195E65Q41430952-B7B2EC2A-5676-4B55-8B9C-5163AE8C5368Q41594431-60C5029D-E5E5-448F-9033-16EE412AAC2CQ42157811-925DECDC-26EC-4707-825C-6648BE9D55E4Q44598174-DFDC3DBE-710E-42A1-AFA3-B6E459CC4555Q45131505-7CD4155D-C43C-4439-8596-7037DC90AD1BQ46475703-ACD50E1E-4499-442C-A105-9A3D201EF8BCQ46505715-BB7AC818-B369-47DA-80B1-FF0E2000A6BEQ48063248-51B89D53-6AC5-460D-A7F3-530C57066437Q48104608-17BF17A5-9C37-425B-BA1F-37A7FC8596FDQ48542171-14B0D9B3-375C-4D93-AAD3-9F76AA252BADQ49831439-BD2579EB-BF03-48DB-AC6C-D0C96D7BCD6BQ50542638-3F5F4AA1-D373-4DDA-BDC5-02715A857307Q51051521-C35545BB-D3E2-4EA1-B557-46438B9146CBQ51370997-6D77B246-B0BB-4FC3-A052-BA8CCE5757AEQ53167921-AB803852-EB54-49EE-BB86-EEC0FB4ABF33Q53256512-BE56668E-07B0-439A-9627-302556A40708Q53825911-D964295F-82D8-4386-AF35-F9DA28C70225Q56900579-7EF591D2-A53F-4E17-8C95-2D9A9A6C42F9Q56900587-06BD2134-9E64-4BC4-8DE4-B1FA18265102Q56900600-3A2C8C57-54C6-4617-BCDB-67780924C056Q56900647-32D7DC2C-738F-4E1C-A0E3-8D0E30E3FB25Q56900733-D093A284-273A-450C-A00A-7B7BC3CB5F4FQ56991930-4603ED34-57D5-4C8D-A3D5-A8DCF7C44CA5Q56994117-BDE24E93-6EC7-470E-A38D-2283E1547D9EQ57612311-5252C429-5FE6-47ED-88C1-58AD7DDAD689Q58203201-3D61DF8F-943E-4A6D-A59F-2676DD02FBE3Q58435120-40C14336-7B72-4408-A793-41B7BFE7490CQ58618362-792AD926-8F1F-4348-A7E9-94E47AF4BAF9Q58686575-1F1C5BA3-4FA6-4296-82F3-55EBCAD97E69Q58686582-C9E65729-40EE-4DEF-BEA5-6428E5E8F9FAQ58686673-C09C0911-A56E-4CCD-AFB5-54DEBE7AC360Q58686676-ABF9B1D8-686A-49A7-8774-A093A3E79AC8Q58686704-B9462F47-9017-4A5F-8441-D21356272219Q58686708-F55FCEF5-FA14-4F32-942B-E505D24ED185
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
J. Fontcuberta
@nl
Josep Fontcuberta
@en
Josep Fontcuberta
@es
type
label
J. Fontcuberta
@nl
Josep Fontcuberta
@en
Josep Fontcuberta
@es
prefLabel
J. Fontcuberta
@nl
Josep Fontcuberta
@en
Josep Fontcuberta
@es
P1053
A-7114-2013
P106
P1153
55638869100
P21
P31
P496
0000-0002-7955-2320