about
Reaching the magnetic anisotropy limit of a 3d metal atom.Magnetic remanence in single atoms.Bio-inspired nanocatalysts for the oxygen reduction reaction.Supramolecular control of the magnetic anisotropy in two-dimensional high-spin Fe arrays at a metal interface.Exchange biasing single molecule magnets: coupling of TbPc2 to antiferromagnetic layers.Restoring the Co magnetic moments at interfacial Co-porphyrin arrays by site-selective uptake of iron.Surface-Assisted Assembly of 2D Metal–Organic Networks That Exhibit Unusual Threefold Coordination SymmetryRational Design of Two-Dimensional Nanoscale Networks by Electrostatic Interactions at SurfacesSelf-assembly of bis(phthalocyaninato)terbium on metal surfacesConvergent and divergent two-dimensional coordination networks formed through substrate-activated or quenched alkynyl ligationCoupling of single, double, and triple-decker metal-phthalocyanine complexes to ferromagnetic and antiferromagnetic substratesFunctionalization of Open Two-Dimensional Metal–Organic Templates through the Selective Incorporation of Metal AtomsHighly Adaptable Two-Dimensional Metal–Organic Coordination Networks on Metal SurfacesCoupling Single Molecule Magnets to Ferromagnetic SubstratesSpin and Orbital Magnetic Moment Anisotropies of Monodispersed Bis(Phthalocyaninato)Terbium on a Copper SurfaceSurface-Confined Supramolecular Coordination ChemistryProgramming Supramolecular Assembly and Chirality in Two-Dimensional Dicarboxylate Networks on a Cu(100) SurfaceOrigin of Perpendicular Magnetic Anisotropy and Large Orbital Moment in Fe Atoms on MgOMagnetism of Ho and Er atoms on close-packed metal surfacesOrbital Specific Chirality and Homochiral Self-Assembly of Achiral Molecules Induced by Charge Transfer and Spontaneous Symmetry BreakingSpin Tuning of Electron-Doped Metal–Phthalocyanine LayersMixed-valence behavior and strong correlation effects of metal phthalocyanines adsorbed on metalsSelf-Assembled Nanometer-Scale Magnetic Networks on Surfaces: Fundamental Interactions and Functional PropertiesGiant spin and orbital moment anisotropies of a Cu-phthalocyanine monolayerAtomic-Scale Observation of Multiconformational Binding and Energy Level Alignment of Ruthenium-Based Photosensitizers on TiO2 AnataseSpin coupling and relaxation inside molecule–metal contactsStereoselectivity and electrostatics in charge-transfer Mn- and Cs-TCNQ4 networks on Ag(100)Direct evidence of imprinted vortex states in the antiferromagnet of exchange biased microdisksPublisher's Note: “Direct evidence of imprinted vortex states in the antiferromagnet of exchange biased microdisks” [Appl. Phys. Lett. 95, 012510 (2009)]Simultaneous in-plane and out-of-plane exchange bias using a single antiferromagnetic layer resolved by x-ray magnetic circular dichroismMimicking Enzymatic Active Sites on Surfaces for Energy Conversion ChemistryDensity Functional Theory Analysis of Carboxylate-Bridged Diiron Units in Two-Dimensional Metal−Organic GridsAsymmetry Induction by Cooperative Intermolecular Hydrogen Bonds in Surface-Anchored Layers of Achiral MoleculesStability of metallo-porphyrin networks under oxygen reduction and evolution conditions in alkaline mediaElement-resolved x-ray ferrimagnetic and ferromagnetic resonance spectroscopyIn-Plane Magnetic Anisotropy of Fe Atoms onBi2Se3(111)Surface-template assembly of two-dimensional metal-organic coordination networksManipulating 2D metal-organic networks via ligand controlOxygen dissociation by concerted action of di-iron centers in metal-organic coordination networks at surfaces: modeling non-heme iron enzymesTowards the isomer-specific synthesis of higher fullerenes and buckybowls by the surface-catalyzed cyclodehydrogenation of aromatic precursors
P50
Q34419417-12A0BFB6-92F9-4B64-B803-23586196E11AQ34522225-A9C59B86-1824-4016-A2FC-311F73843EDCQ43786082-B3895D2D-3E5F-4FFA-BDC9-D043688BEB38Q46138925-F3904672-0858-4900-B8FB-86AA634286C9Q53107378-6C760002-025E-49C9-8972-88FCFBEA093AQ53268036-9E415956-90FF-45BE-8B38-507123DD7D3FQ58233440-260C2534-AC88-44CD-85B5-913D191549F6Q58871260-F89F5B4B-6000-4D4B-B632-49FC7596BC65Q59444560-0BCA74E3-3731-4D3D-ABAF-1493F384D34DQ59444577-7870B99D-B707-44C6-B79D-DB547E6E0DD6Q59444580-2F2E3356-C186-4CBD-A61E-6D8A09E27BD3Q59444606-A3172DE6-1965-408D-9AB2-D3EB8C857B57Q59444636-62B7B74F-8468-41BE-9CF8-8F7805370C8AQ59444662-8449505F-AAD6-4205-8AF8-5773553EFF0BQ59444681-865347D9-6067-4ED1-BB56-9E3161570436Q59444702-68FCD7EC-8F8A-4C40-9DE7-2461367C032FQ59444709-D1319F4E-9CF5-4719-8B63-20C2DC12BD53Q59457065-D29F6ABC-9A1B-4C8A-84AD-449A596C4E81Q59457067-A9EC7230-D300-4872-BC08-5B70A742E51CQ59904318-3BCBD5F5-6E85-46D4-BE47-5175B502F05CQ60150817-17024BBB-27DA-444B-8495-60D0FB8AF606Q60150834-54E08C66-9B0A-40EE-A88A-768900E01D05Q60150837-D37D7FD6-1654-4E72-9D29-EDB6B01EAE8BQ60150842-C155D226-9A00-4EE3-9783-EFB9ABCCF71DQ60216548-079B4F61-E021-4693-A619-5F069624199CQ61198312-D7663261-EA0A-40C6-B81E-16B398534637Q61207232-DD0D7FEE-1623-474D-A5E3-51BD0EB3AA70Q61947252-21B72B36-3C36-4B7A-8499-04049AD5ABAFQ61947253-04E8BFEA-79C7-46F7-BBD9-6F5A97D6D285Q61947266-99D5AFAC-9A0F-48FE-A8D4-ACEB4887D649Q62089400-ABA5E2F3-B903-455D-845C-6FB9113DC9F3Q62089475-6C3B1961-951C-456A-B81F-B0D0E870B63FQ62089476-183F0873-1498-4F10-BEED-9B7DA83CAD66Q62600759-1F373B4D-E659-4D8D-AAA3-4ABD91C046FBQ62646937-72F7568F-9D3F-4669-AB73-99DB4945DCD2Q62677818-A353656B-41DC-4DDB-A480-51E325D000C7Q79361711-348F6EBA-6E74-4CFB-85A6-3CB8BCEFD1F5Q81576283-8FA8CC30-F682-41E9-8636-0631C255EF86Q82094494-143E3951-E92A-4331-9EB9-46D530ACEFD2Q82215461-3D81818F-5E72-43A9-B2F4-116A8DD7F5B3
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
S Stepanow
@ast
S Stepanow
@en
S Stepanow
@es
S Stepanow
@nl
type
label
S Stepanow
@ast
S Stepanow
@en
S Stepanow
@es
S Stepanow
@nl
prefLabel
S Stepanow
@ast
S Stepanow
@en
S Stepanow
@es
S Stepanow
@nl
P106
P31
P496
0000-0002-4090-6574