36 research outputs found

    Spinterface: A new platform for spintronics

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    Since its discovery in early 2000's Molecular Spintronics has developed in an established and fructuous research field, achieving a number of outstanding results and unveiling unusual spintronic properties. Typically the most mysterious device element, the interface, in molecular spintronics has on contrary received and enormous attention and even gained a special nickname – the spinterface. Based on significant efforts of many research groups worldwide it has been established its critical role in defining the main functionalities of molecular spintronic devices. Noteworthily the spinterface was found to control the properties of the both components constituting the interface, not only those of the molecular layer but surprisingly also those of the magnetic counterpart. This paper aims to overview the most striking spinterface properties and to highlight the possibilities to promote new device paradigms based on interfacial modulation. Keywords: Molecular spintronics, Ferromagnetism, Spin polarization, Hybridization organic semiconductor

    Hopping magneto-transport via nonzero orbital momentum states and organic magnetoresistance

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    In hopping magnetoresistance of doped insulators, an applied magnetic field shrinks the electron (hole) s-wave function of a donor or an acceptor and this reduces the overlap between hopping sites resulting in the positive magnetoresistance quadratic in a weak magnetic field, B. We extend the theory of hopping magnetoresistance to states with nonzero orbital momenta. Different from s-states, a weak magnetic field expands the electron (hole) wave functions with positive magnetic quantum numbers, m > 0, and shrinks the states with negative m in a wide region outside the point defect. This together with a magnetic-field dependence of injection/ionization rates results in a negative weak-field magnetoresistance, which is linear in B when the orbital degeneracy is lifted. The theory provides a possible explanation of a large low-field magnetoresistance in disordered pi-conjugated organic materials (OMAR).Comment: 4 pages, 3 figure

    Controlling magnetoresistance by oxygen impurities in Mq3-based molecular spin valves

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    The understanding of magnetoresistance (MR) in organic spin valves (OSVs) based on molecular semiconductors is still incomplete after its demonstration more than a decade ago. While carrier concentration may play an essential role in spin transport in these devices, direct experimental evidence of its importance is lacking. We probed the role of charge carrier concentration by studying the interplay between MR and multilevel resistive switching in OSVs. The present work demonstrates that all salient features of these devices, particularly the intimate correlation between MR and resistance, can be accounted for by the impurity band model, based on oxygen migration. Finally, we highlight the critical importance of carrier concentration in determining spin transport and MR in OSVs and the role of interface-mediated oxygen migration in controlling the OSVs response

    Conditions for the growth of smooth La0.7Sr0.3MnO3 thin films by pulsed electron ablation

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    We report on the optimisation of the growth conditions of manganite La0.7Sr0.3MnO3 (LSMO) thin films prepared by Channel Spark Ablation (CSA). CSA belongs to pulsed electron deposition methods and its energetic and deposition parameters are quite similar to those of pulsed laser deposition. The method has been already proven to provide manganite films with good magnetic properties, but the films were generally relatively rough (a few nm coarseness). Here we show that increasing the oxygen deposition pressure with respect to previously used regimes, reduces the surface roughness down to unit cell size while maintaining a robust magnetism. We analyse in detail the effect of other deposition parameters, like accelerating voltage, discharging energy, and temperature and provide on this basis a set of optimal conditions for the growth of atomically flat films. The thicknesses for which atomically flat surface was achieved is as high as about 10-20 nm, corresponding to films with room temperature magnetism. We believe such magnetic layers represent appealing and suitable electrodes for various spintronic devices.Comment: original paper, thin film optimization, 25 pages, 9 figure

    Electron transport and noise spectroscopy in organic magnetic tunnel junctions with PTCDA and Alq3 barriers

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    Isidoro Martinez, Juan Pedro Cascales, Jhen-Yong Hong, Minn-Tsong Lin, Mirko Prezioso, Alberto Riminucci, Valentin A. Dediu, Farkhad G. Aliev, "Electron transport and noise spectroscopy in organic magnetic tunnel junctions with PTCDA and Alq3 barriers", Spintronics IX, Proc. SPIE 9931 (4 November 2016); doi: 10.1117/12.2237721. Copyright 2016 Society of Photo-Optical Instrumentation Engineers (SPIE). One print or electronic copy may be made for personal use only. Systematic reproduction and distribution, duplication of any material in this paper for a fee or for commercial purposes, or modification of the content of the paper are prohibitedProceedings of IX Spintronics Conference ( San Diego, California, United States)The possible influence of internal barrier dynamics on spin, charge transport and their fluctuations in organic spintronics remains poorly understood. Here we present investigation of the electron transport and low frequency noise at temperatures down to 0.3K in magnetic tunnel junctions with an organic PTCDA barriers with thickness up to 5 nm in the tunneling regime and with 200 nm thick Alq 3 barrier in the hopping regime. We observed high tunneling magneto-resistance at low temperatures (15-40%) and spin dependent super-poissonian shot noise in organic magnetic tunnel junctions (OMTJs) with PTCDA. The Fano factor exceeds 1.5-2 values which could be caused by interfacial states controlled by spin dependent bunching in the tunneling events through the molecules. 1 The bias dependence of the low frequency noise in OMTJs with PTCDA barriers which includes both 1/f and random telegraph noise activated at specific biases will also be discussed. On the other hand, the organic junctions with ferromagnetic electrodes and thick Alq 3 barriers present sub-poissonian shot noise which depends on the temperature, indicative of variable range hoppingSupport by UAM-Santander collaborative project (2015/ASIA/04) as well as by the Spanish MINECO (MAT2012-32743 and MAT2015-66000-P) grants and the Comunidad de Madrid through NANOFRONTMAG (S2013/MIT-2850) is also gratefully acknowledged. J.P.C. acknowledges support from the Fundacion Seneca (Region de Murcia) posdoctoral fellowship (19791/PD/15

    Magnetoresistance and energy model of Alq3-based spintronic devices

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    Spin transport in organic semiconductors has been receiving widespread attention since the first experimental demonstration of magnetoresistive effects (change in resistance under an applied magnetic field) in hybrid ferromagnetic/organic/ferromagnetic structures [1]. Continuous effort in the field has led to the realization, for example, of vertical organic spintronic devices with differ- ent organic semiconductor layers [2,3] or organic tunnel barriers [4]. However, there is still a lack of understanding on the mechanism that governs spin injection and transport in organics, leading to general disagreement even on the expected sign of the devices output magnetoresistance. With the aim to clarify the spin transport behaviour in organic semiconductors, we present new results on hybrid inorganic/organic spin valves with the most successful up-to-date combination of materials [2-6]. The highly spin polarized manganite La2/3Sr1/3MnO3 and Cobalt have been used as ferromagnetic electrodes for spin injection into thick layers (up to 200 nm) of tris(8-hydrox- yquinoline)aluminum(III) (Alq3). In a critical design improvement, we have for the first time intro- duced an artificial tunnel barrier (Al2O3 or LiF) between the organic and the Co top electrode to study its influence on spin injection into organic semiconductors and to improve the chemical sta- bility and reproducibility of the devices. In our manuscript we: explore the importance of artificial tunnel barriers for spin injection in organics, record room temperature magnetoresistance, demonstrate that only ferromagnetic elec- trodes and not organic semiconductor limit device output and, finally, sketch an energy diagram able to explain negative magnetoresistance in LSMO/Alq3/Co spin valves. Our work is a new step forward in organic spintronics, as we prove that organic semiconductors do not have a clear limit for room temperature performance with the adequate ferromagnets, and we present a reliable model that could be easily extrapolated to predict the output of different materi- als combinations in hybrid spin valves. [1] Dediu, V., Murgia, M., Matacotta, F.C., Taliani, C. & Barbanera, S. Sol. State Commun. 122, 181-184 (2002). [2] Xiong, Z.H., Wu, D., Vardeny, Z.V. & Shi, J. Nature 427, 821-824 (2004). [3] Majumdar, S., Majumdar, H.S., Laiho, R. & Osterbacka, R. J. Alloy & Compounds 423, 169-171 (2006). [4] Santos, T.S., Lee, J.S., Migdal, P., Lekshmi, I.C., Satpati, B. & Moodera, J.S. Phys. Rev. Lett. 98, 016601 (2007). [5] Xu, W., Szulczewski, G.J., LeClair, P., Navarrete, I., Schad, R., Miao, G., Guo, H. & Gupta, A. Appl. Phys. Lett. 90, 072506 (2007). [6] Hueso, L.E., Riminucci, A., Bergenti, I., Zhan, Y. & Dediu, V. Adv. Mater. 19, 2639-2642 (2007)

    Oxygen impurities link bistability and magnetoresistance in organic spin valves

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    Vertical cross-bar devices based on manganite and cobalt injecting electrodes and metal-quinoline molecular transport layer are known to manifest both magnetoresistance and electrical bistability. The two effects are strongly interwoven, inspiring new device applications such as electrical control of the magnetoresistance and magnetic modulation of bistability. To investigate the full device functionality, we first identify the mechanism responsible for electrical switching by associating the electrical conductivity and the impedance behavior with chemical states of buried layers obtained by in operando photoelectron spectroscopy. These measurements revealed that a significant fraction of oxygen ions migrates under voltage polarity, resulting in a modification of the electronic properties of the organic material and of the oxidation of interfacial layer with ferromagnetic contacts. Variable oxygen doping of the organic molecule represents the key element for correlating bistability and magnetoresistance and our measurements provide the first experimental evidence in favor of the impurity band model describing the spin transport in organic semiconductors in similar devices

    El museo como dispositivo de espectacularización de la naturaleza

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    La presente investigación se desarrolla desde el pensamiento del discurso y el dispositivo propuesto por Michael Foucault, adaptado para el estudio de espacios expositivos desarrollado por Susana Herrera Lima. Se discute el concepto de espectacularización desde el pensamiento de Guy Debord. Este estudio es una combinación de las propuestas del análisis crítico del discurso de Sigfried Jäger y la teoría fundamentada de Strauss y Corbin y se realizó con la participación de seis museos de Quintana Roo. En el trabajo se plantea al museo como un dispositivo de espectacularización que escenifica una verdad a partir de fragmentos discursivos y omisiones que determinan lo que es la naturaleza y dictan las maneras como se relaciona la sociedad con ella. De esta forma, el museo tiene la capacidad de legitimar una versión embellecida de la realidad natural que se presenta en otros medios de comunicación. A la par, es un dispositivo que puede hacer visibles los elementos que conforman el concepto de naturaleza e invisibilizar los que no la han de integrar. Los museos de Quintana Roo demostraron que en el fenómeno de espectacularización, el museo tiene una participación muy diversa. Algunos confirman los efectos discursivos del espectáculo, mientras que otros confrontan la hipótesis. En todos los casos se acepta que la espectacularización es una condición ontogénica del museo, pero cuyo papel en la lógica estratégica del discurso museográfico no es homogénea
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