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Workfunction-tunable, N-doped reduced graphene transparent electrodes for high-performance polymer light-emitting diodes.

ACS nano (2011-12-14)
Jin Ok Hwang, Ji Sun Park, Dong Sung Choi, Ju Young Kim, Sun Hwa Lee, Kyung Eun Lee, Yong-Hyun Kim, Myoung Hoon Song, Seunghyup Yoo, Sang Ouk Kim
RESUMEN

Graphene is a promising candidate to complement brittle and expensive transparent conducting oxides. Nevertheless, previous research efforts have paid little attention to reduced graphene, which can be of great benefit due to low-cost solution processing without substrate transfer. Here we demonstrate workfunction-tunable, highly conductive, N-doped reduced graphene film, which is obtainable from the spin-casting of graphene oxide dispersion and can be successfully employed as a transparent cathode for high-performance polymer light-emitting diodes (PLEDs) as an alternative to fluorine-doped tin oxide (FTO). The sheet resistance of N-doped reduced graphene attained 300 Ω/□ at 80% transmittance, one of the lowest values ever reported from the reduction of graphene oxide films. The optimal doping of quaternary nitrogen and the effective removal of oxygen functionalities via sequential hydrazine treatment and thermal reduction accomplished the low resistance. The PLEDs employing N-doped reduced graphene cathodes exhibited a maximum electroluminescence efficiency higher than those of FTO-based devices (4.0 cd/A for FTO and 7.0 cd/A for N-doped graphene at 17,000 cd/m(2)). The reduced barrier for electron injection from a workfunction-tunable, N-doped reduced graphene cathode offered this remarkable device performance.

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Sigma-Aldrich
Graphene oxide, 2 mg/mL, dispersion in H2O, avg. no. of layers, 1