Enhanced fluorescence by surface plasmon coupling of Au nanoparticles in an organic electroluminescence diode

Abstract

A significant increase in electroluminescence was achieved through coupling with localized surface plasmons in a single layer of Au nanoparticles. We fabricated a thin-film organic electroluminescence diode, which consists of an indium tin oxide (ITO) anode, a Au nanoparticle array, a Cu phthalocyanine hole transport layer, a tris(8-hydroxylquinolianato) aluminum (III) electron transport layer, a LiF electron injection layer, and an Al cathode. The device structure, with size-controlled Au particles embedded on ITO, can be used to realize the optimum distance for exciton-plasmon interactions by simply adjusting the thickness of the hole transport layer. We observed a 20-fold increase in the molecular fluorescence compared with that of a conventional diode structure.

References

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	Year	Citations
Size and Temperature Dependence of the Plasmon Absorption of Colloidal Gold Nanoparticles Stephan Link, Mostafa A. El‐Sayed The Journal of Physical Chemistry B NanoparticlesPlasmonicsMaterials ScienceEngineeringPhysics	1999	2.7K
Editorial: Metal-Enhanced Fluorescence Chris D. Geddes, Joseph R. Lakowicz Journal of Fluorescence	2002	872
Plasmonic Materials for Surface-Enhanced Sensing and Spectroscopy Amanda J. Haes, Christy L. Haynes, Adam D. McFarland, MRS Bulletin Materials SciencePlasmonicsEngineeringOptical PropertiesPlasmonic Materials	2005	682
Surface‐Plasmon‐Enhanced Light‐Emitting Diodes Min‐Ki Kwon, Ja‐Yeon Kim, Baek‐Hyun Kim, Advanced Materials Electrical EngineeringSolid-state LightingEngineeringSurface PlasmonsPhotoluminescence	2008	496
Surface Plasmon Mediated Emission from Organic Light-Emitting Diodes P.A. Hobson, S. Wedge, J. A. E. Wasey, Advanced Materials Materials SciencePlasmonicsElectrical EngineeringWhite OledEngineering	2002	310
Enhanced dye fluorescence over silver island films: analysis of the distance dependence Jörg Kümmerlen, A. Leitner, Harald Brunner, Molecular Physics Optical MaterialsEngineeringMetallic NanomaterialsChemistryLuminescence Property	1993	306
Surface plasmon-enhanced spontaneous emission rate in an organic light-emitting device structure: Cathode structure for plasmonic application Ki Youl Yang, Kyung Cheol Choi, Chi Won Ahn Applied Physics Letters EngineeringOrganic ElectronicsChemistryChemical EngineeringOptical Properties	2009	111
Amino-terminated self-assembled monolayer on a SiO2 surface formed by chemical vapor deposition Atsushi Hozumi, Yoshiyuki Yokogawa, Tetsuya Kameyama, Journal of Vacuum Science & Technology A Vacuum Surfaces and Films EngineeringNative OxideSurface NanotechnologyChemistryAbsolute Toluene	2001	102
Space-charge limited conduction with a field and temperature dependent mobility in Alq light-emitting devices Wolfgang Brütting, S. Berleb, Anton G. Mückl Synthetic Metals PhotonicsElectrical EngineeringSolid-state LightingEngineeringPhysics	2001	101
Metal-enhanced fluorescence from copper substrates Yongxia Zhang, Kadir Aslan, Michael J. R. Previte, Applied Physics Letters Cu FilmsEngineeringMetal NanoparticlesMetallic NanomaterialsChemistry	2007	100

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