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Spin-Polarized Light-Emitting Diode Based on an Organic Bipolar Spin Valve
Published:2012-12-10 10:03:00 From:Editor hits:
The spin-polarized organic light-emitting diode (spin-OLED) has been a long-sought device
within the field of organic spintronics. We designed, fabricated, and studied a spin-OLED
with ferromagnetic electrodes that acts as a bipolar organic spin valve (OSV), based on a
deuterated derivative of poly(phenylene-vinylene) with small hyperfine interaction. In the
double-injection limit, the device shows ~1% spin valve magneto-electroluminescence (MEL)
response, which follows the ferromagnetic electrode coercive fields and originates from the bipolar
spin-polarized space charge–limited current. In stark contrast to the response properties of
homopolar OSV devices, the MEL response in the double-injection device is practically independent
of bias voltage, and its temperature dependence follows that of the ferromagnetic electrode
magnetization. Our findings provide a pathway for organic displays controlled by external
magnetic fields.
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