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A spectrally tunable all-graphene-based flexible field-effect light-emitting device.

Xiaomu WangHe TianMohammad Ali MohammadCheng LiCan WuYi YangTian-Ling Ren
Published in: Nature communications (2015)
The continuous tuning of the emission spectrum of a single light-emitting diode (LED) by an external electrical bias is of great technological significance as a crucial property in high-quality displays, yet this capability has not been demonstrated in existing LEDs. Graphene, a tunable optical platform, is a promising medium to achieve this goal. Here we demonstrate a bright spectrally tunable electroluminescence from blue (∼450 nm) to red (∼750 nm) at the graphene oxide/reduced-graphene oxide interface. We explain the electroluminescence results from the recombination of Poole-Frenkel emission ionized electrons at the localized energy levels arising from semi-reduced graphene oxide, and holes from the top of the π band. Tuning of the emission wavelength is achieved by gate modulation of the participating localized energy levels. Our demonstration of current-driven tunable LEDs not only represents a method for emission wavelength tuning but also may find applications in high-quality displays.
Keyphrases
  • light emitting
  • reduced graphene oxide
  • gold nanoparticles
  • solid state
  • high resolution
  • room temperature
  • carbon nanotubes
  • walled carbon nanotubes
  • oxidative stress
  • high speed
  • energy transfer