Spin transport properties of triarylamine-based nanowires

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Sandip Bhattacharya, Akinlolu Akande, and Stefano Sanvito, Spin transport properties of triarylamine-based nanowires, Chemical Communications, 50, 2014, 6626-

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Triarylamine-derivatives can self-assemble upon light irradiation in one-dimensional nanowires with remarkable hole transport properties. We use a combination of density functional theory and Monte Carlo simulations to predict the nanowires spin-diffusion length. The orbital nature of the nanowires valence band, namely a singlet π-like band localised on N, suggests that hyperfine coupling may be weak and that spin–orbit interaction is the primary source of intrinsic spin relaxation. Thus, we construct a model where the spin–orbit interaction mixes the spins of the valence band with that of three degenerate lower valence bands of sp2 nature. The model includes also electron–phonon interaction with a single longitudinal mode. We find a room temperature spin-diffusion length of the order of 100 nm, which increases to 300 nm at 200 K. Our results indicate that triarylamine-based nanowires are attractive organic semiconductors for spintronics applications.

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Sponsor: Science Foundation Ireland (SFI)
Grant Number: 08/CE/I1432

Sponsor: Science Foundation Ireland (SFI)
Grant Number: 07/IN.1/I945

Type of material: Journal Article