Direct measurement of the electronic spin diffusion length in a fully functional organic spin valve by low-energy muon spin rotation

Drew, Alan J.; Hoppler, Julian; Schulz, Leander; Pratt, F. L.; Desai, Pratik; Shakya, P.; Kreouzis, Theo; Gillin, W. P.; Suter, A.; Morley, N. A.; Malik, V. K.; Dubroka, Adam; Kim, Kyung Wan; Bouyanfif, H.; Bourqui, Francis; Bernhard, C.; Scheuermann, R.; Nieuwenhuys, G. J.; Prokscha, T.; Morenzoni, E.

doi:10.1038/nmat2333

Cited by 254 publications

(179 citation statements)

References 34 publications

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“…For the same arguments as used in Section 6 about ''hot spot'' transport, the LE-mSR measurements appear to show the former is true [43,56]. Adapted from Ref.…”

Section: Magnetoresistance In Organic Spin Valvesmentioning

confidence: 96%

“…They conclude that the local character of this SHIPS-induced polarization inversion means it should not be observed in their point-like experiments, whereas since these SHIPS states are responsible for the majority of the current, it can be observed in large area devices. However, this model may not be generally applicable, as recent large-area device measurements with Low Energy Muon Spin Rotation (LE-mSR) indicate that the spin-polarized current is not dominated by hotspots, but is present over a large area within the device [43]. This is because the LE-mSR technique measures the areal average over the size of the muon beamspot [44], which is shown in Fig.…”

Section: Magnetoresistance In Organic Spin Valvesmentioning

confidence: 99%

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The role of interfaces in organic spin valves revealed through spectroscopic and transport measurements

Drew

Szulczewski

Nuccio

et al. 2011

Physica Status Solidi (b)

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Interfaces between dissimilar materials are critical to the performance of many electronic devices. In electrical devices where the active transport is through an organic semiconductor (OSC) layer there are metallic electrodes to supply and remove the charge carriers. At metal/molecule and molecule/metal interfaces the electrical contact is usually not Ohmic. As a result, in most metal-organic semiconductors-metal devices charge injection is mainly governed by tunneling across the barriers. When the metal electrodes are ferromagnetic the density of occupied and unoccupied electronic states is spindependent, which presents further subtleties to the electron transfer. In this article we summarize some of the important experimental results that have advanced our understanding of spin-polarized electron transfer across ferromagnetic metal (FM)/OSC interfaces. In particular, we highlight key spectroscopic studies that have revealed insights into the nature of the electronic structure between OSCs and FMs, in particular between Alq 3 and Co and Fe surfaces. We discuss the relationship between energy level diagrams for these systems and transport measurements made on spin-valve devices.

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“…For the same arguments as used in Section 6 about ''hot spot'' transport, the LE-mSR measurements appear to show the former is true [43,56]. Adapted from Ref.…”

Section: Magnetoresistance In Organic Spin Valvesmentioning

confidence: 96%

Section: Magnetoresistance In Organic Spin Valvesmentioning

confidence: 99%

The role of interfaces in organic spin valves revealed through spectroscopic and transport measurements

Drew

Szulczewski

Nuccio

et al. 2011

Physica Status Solidi (b)

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show abstract

“…Indeed, giant MR (GMR) has been measured in OSV devices based on small molecule and polymer spacers, both as thick films and thin tunnel junctions 4,[6][7][8][9][10][11][12][13] . Clear proof of spin injection into organic spacer was also provided by muon spin rotation 14 and two photon photoemission spectroscopy 15 .…”

Section: Introductionmentioning

confidence: 99%

Spin diffusion in fullerene-based devices: Morphology effect

Nguyen

Wang

et al. 2013

Phys. Rev. B

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The buckminsterfullerene C 60 molecules are composed of ~99% naturally abundant 12 C carbon atoms having spinless nucleus and thus zero hyperfine interaction. Therefore it was assumed that the spin diffusion length in C 60 -based spin-valves is large. We fabricated spin-valves based on C 60 and studied the magnitude of the giant magneto-resistance (GMR) as a function of bias voltage, temperature and C 60 layer thickness. Surprisingly, we found that GMR first increases as the C 60 layer thickness increases, reaching a maximum at ~35 nm, then exponentially decreases with thickness from which we extracted a small spin diffusion length of ~12 nm at 10 K. From our data we obtain two important conclusions. First, morphology related disorder that originates from the C 60 nano-crystalline grains embedded into an amorphous phase of C 60 is responsible for an unusual spin diffusion process that results in short spin diffusion length. Second, we identify the main spin relaxation dynamics in the fullerene to be the grain boundaries in which spin-orbit coupling is enhanced by the local electric field.

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“…The observation of SDT in OSs in the hopping process has also been reported 2,3 in such materials as tris (8-hydroxyquinolinato) aluminium (Alq 3 ) and rubrene. However, most studies have only been carried out at low temperatures because of the evident reduction in the SDT length with increasing measurement temperatures until the MR effect finally disappears at room temperature 2,[13][14][15][16][17][18][19] . Thus, whether a large SDT length can be realized in OSs at room temperature remains unclear.…”

mentioning

confidence: 99%

“…The traditional optical pump-probe method used for studying spin dynamics and transport in inorganic semiconductors is not suitable for OSs because of the weak spin-orbit interaction and the absence of a crystalline structure with inversion asymmetry in OSs 16,17 . The use of an organic spin valve device is still the most popular technique for investigating SDT in OSs 2 .…”

mentioning

confidence: 99%

Observation of a large spin-dependent transport length in organic spin valves at room temperature

et al. 2013

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The integration of organic semiconductors and magnetism has been a fascinating topic for fundamental scientific research and future applications in electronics, because organic semiconductors are expected to possess a large spin-dependent transport length based on weak spin-orbit coupling and weak hyperfine interaction. However, to date, this length has typically been limited to several nanometres at room temperature, and a large length has only been observed at low temperatures. Here we report on a novel organic spin valve device using C 60 as the spacer layer. A magnetoresistance ratio of over 5% was observed at room temperature, which is one of the highest magnetoresistance ratios ever reported. Most importantly, a large spin-dependent transport length of approximately 110 nm was experimentally observed for the C 60 layer at room temperature. These results provide insights for further understanding spin transport in organic semiconductors and may strongly advance the development of spin-based organic devices.

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Direct measurement of the electronic spin diffusion length in a fully functional organic spin valve by low-energy muon spin rotation

Cited by 254 publications

References 34 publications

The role of interfaces in organic spin valves revealed through spectroscopic and transport measurements

The role of interfaces in organic spin valves revealed through spectroscopic and transport measurements

Spin diffusion in fullerene-based devices: Morphology effect

Observation of a large spin-dependent transport length in organic spin valves at room temperature

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