Philip Thielen scite author profile

Spin filtering at organic-metal interfaces is often determined by the details of the interaction between the organic molecules and the inorganic magnets used as electrodes. Here we demonstrate a spin-filtering mechanism based on the dynamical spin relaxation of the long-living interface states formed by the magnet and weakly physisorbed molecules. We investigate the case of Alq3 on Co and, by combining two-photon photoemission experiments with electronic structure theory, show that the observed long-time spin-dependent electron dynamics is driven by molecules in the second organic layer. The interface states formed by physisorbed molecules are not spin-split, but acquire a spin-dependent lifetime, that is the result of dynamical spin-relaxation driven by the interaction with the Co substrate. Such spin-filtering mechanism has an important role in the injection of spin-polarized carriers across the interface and their successive hopping diffusion into successive molecular layers of molecular spintronics devices.

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Cavity-assisted ultrafast long-range periodic energy transfer between plasmonic nanoantennas

Aeschlimann

Brixner

Cinchetti

et al. 2017

Light Sci Appl

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Perfect absorption in nanotextured thin films via Anderson-localized photon modes

et al. 2015

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Philip Thielen

Dynamic spin filtering at the Co/Alq3 interface mediated by weakly coupled second layer molecules

Cavity-assisted ultrafast long-range periodic energy transfer between plasmonic nanoantennas

Perfect absorption in nanotextured thin films via Anderson-localized photon modes

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