about
Singlet-to-triplet interconversion using hyperfine as well as ferromagnetic fringe fieldsSpin-Current and Spin-Splitting in Helicoidal Molecules Due to Spin-Orbit Coupling.Excellent spin transport in spin valves based on the conjugated polymer with high carrier mobility.Controlling the spatial arrangement of organic magnetic anions adsorbed on epitaxial graphene on Ru(0001).Curvature-enhanced Spin-orbit Coupling and Spinterface Effect in Fullerene-based Spin Valves.Activationless charge transport across 4.5 to 22 nm in molecular electronic junctions.Recent progress in photoactive organic field-effect transistorsMolecular spintronics.The first decade of organic spintronics research.Improved all-carbon spintronic device design.Organic magnetoelectroluminescence for room temperature transduction between magnetic and optical information.Magnetic coupling in bis-nitronylnitroxide radicals: The role of aromatic bridges.Optically Tunable Magnetoresistance Effect: From Mechanism to Novel Device Application.Magnetic response of an ultrathin cobalt film in contact with an organic pentacene layer.Charging-induced asymmetric spin distribution in an asymmetric (9,0) carbon nanotube.Organic Spin-Valves and Beyond: Spin Injection and Transport in Organic Semiconductors and the Effect of Interfacial Engineering.Enhancing magnetoresistance in tetrathiafulvalene carboxylate modified iron oxide nanoparticle assemblies.Geometric influence on Ruderman-Kittel-Kasuya-Yosida interactions in zigzag carbon nanotubes.Toward an effective yet reliable many-body computation of magnetic couplings in bisnitronyl nitroxide biradicals.Large spin diffusion length in an amorphous organic semiconductor.An agnostic approach.Low temperature tunneling magnetoresistance on (La,Sr)MnO3∕Co junctions with organic spacer layersIndirect coupling of an organic semiconductor to ad-orbital surface stateElectronic and magnetic structure of C60/Fe3O4(001): a hybrid interface for organic spintronicsSupercell convergence of charge-transfer energies in pentacene molecular crystals from constrained DFTUnderstanding the role of tunneling barriers in organic spin valves by hard x-ray photoelectron spectroscopy
P2860
Q28084439-3A1B4858-AF42-4C1C-B521-54F9BDCD0AD8Q34676510-8DCF99DB-652A-487B-9826-B083B3086D27Q35206350-4F42134E-8AF1-4880-8039-00C5FA99ACFEQ35405918-2295D17E-154D-47A1-95F9-177004DD113DQ36500844-7135DC0A-73E4-4658-ADC5-9DCA7231EFDBQ36747764-DC386C85-4F1A-4F4E-AA0B-8189FCD94C64Q37386486-9760F5CC-2DB0-4CFC-AA98-72D3D0F156ECQ37873316-A850F353-631A-46DF-B982-FDF7A75AA4F4Q38179007-B6DE765B-16C7-4EDC-B931-1F30FB66830DQ41817636-F7407A64-CF71-4937-B0C0-E60EE7BF6E7DQ44887676-AB8FC9F7-AEF9-4003-BE8B-0D93EF890F5EQ46093458-BD6B997D-3E1B-4B2A-A142-DF780A692701Q47214411-23414506-E7D3-427F-8027-27765FD631B1Q50094642-10BB6FB7-F6A8-46F4-A0ED-ADE2636A47E1Q50926340-15C3B0FE-7A76-4B5B-81D3-720641A3A217Q51098378-C0DC9737-3CE3-4207-A360-EE8FDE7278FDQ51301447-292328D4-1584-49B8-9479-51B2982E04F9Q51377951-E9C644CC-0443-4021-8523-FE1DB0AC12CCQ51621431-637F6853-C7F1-4CA4-9DC6-07C20D9E1BCDQ53534373-5FDABFCF-6B23-48BD-9A46-0098CD25CFE4Q54495293-AF378857-82BD-432D-B9A2-8D59BAF51ED9Q56603338-7B7BBCAF-D399-4C62-986F-CEDD9467DA48Q57435969-403F271B-B855-4BCB-B43C-0B68A56F7E4FQ58167055-47013D63-698F-47A8-B0EF-395864419127Q58557668-AE7C1CE2-2B64-4742-95C6-86477D8A59D5Q58810219-ADDAD474-1FA6-4871-BB92-FE69FFBAAC7A
P2860
description
article
@en
im Juni 2007 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в червні 2007
@uk
name
Organic spintronics
@en
Organic spintronics
@nl
type
label
Organic spintronics
@en
Organic spintronics
@nl
prefLabel
Organic spintronics
@en
Organic spintronics
@nl
P356
P1433
P1476
Organic spintronics
@en
P2093
W G van der Wiel
W J M Naber
P304
P356
10.1088/0022-3727/40/12/R01
P50
P577
2007-06-04T00:00:00Z