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International Journal Of Chemistry, Mathematics And Physics(IJCMP)

OLED Device Review and A Summary of the Plasmonic Enhancement thereof

Guy Francis Mongelli


International Journal of Chemistry, Mathematics And Physics(IJCMP), Vol-3,Issue-1, January - February 2019, Pages 1-4 , 10.22161/ijcmp.3.1.1

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Within this work the major breakthroughs in the development of OLED technologies are described. There is a strong emphasis placed upon materials discovery. The basic OLED structure is shown and the plasmonic effect is detailed in the context of OLED technologies.

organic light emitting diode (OLED), outcoupling efficiency, plasmonic materials, singlet/triplet emissions.

[1] S.R. Forrest, “The road to high efficiency organic light emitting devices”, Organic Electronics 4 (2003) 45-48.
[2] Tang, C. W., VanSlyke, S. A.; “Organic electroluminescent diodes”, App. Phys. Lett. (1987), 51(12), 913-15. DOI: 10.1063/1.98799
[3] Ji Hoon Seo et al.; “White Organic light-emitting diodes showing nearly 100% internal quantum efficiency”, Organic Electronics 11 (2010) 1759–176.
[4] L.S. Liao, K. P. Klubek, C. W. Tang; “High-efficiency tandem organic light-emitting diodes”, Appl. Phys. Lett. Vol 84, No. 2 (Jan. 2004).
[5] M. Rajeswaran, T.N. Blanton, C.W. Tanget al.; “Structural, themal and spectral characterization of the different crystaline forms of Alq3, tris(quinolin-8-olato)aluminium(III), an electroluminescent material in OLED technology”; Polyhedron 28 (2009).
[6] Z. Li, H. Meng; “Organic Light Emitting Materials and Devices” Taylor & Francis, Boca Raton (2006).
[7] T. Tsujimura, “OLED Display Fundamentals with applications” John Wiley & Sons, New York (2012).
[8] H. Yersin, “Highly Efficient OLEDs with Phosphorescent Materials”, John Wiley & Sons (2007).
[9] 9. G.E. Jabbour, “The Fundamentals of OLED Fabrication” Intertech, San Francisco (2004). 10. S. Reineke, F. Lindner, G. Schwartz et al.; “White organic light-emitting diodes with fluorescent tube efficiency” Nature (London) 459 (2009).
[10] M.A. Baldo, M.E. Thompson, S.R. Forrest et al.; “Highly efficient phosphorescent emission from organic electroluminescent devices” Nature 395 (1998) 151.
[11] J.A. Hagen, W. Li, J. Steckl, J.G. Grote; “Enhanced emission efficiency in organic lightemitting diodes using deoxyribonucleic acid complex as an electron blocking layer” Appl. Phys. Lett 88, Is. 17 (2006).
[12] V.I. Admovick et al.; “New charge-carrier blocking materials for high efficiency OLEDs” Organic electronics, Vol. 4, Iss. 2-3, (2003).
[13] M. Ikai, S. Tokito, T. Taga; “Highly Efficienct phosphorescence from organic light-emitting devices with an exciton-block layer” Appl. Phys. Lett. Vol. 79, No. 2 (2001).
[14] S. Hamwi et al., “The Role of Transition Metal Oxides in Charge-Generation Layers for Stacked Organic Light-Emitting Diodes” Adv. Func. Mat. 20, Is. 11 (2010).
[15] H. Wang, K. P. Klubek, C.W. Tang; “Current efficiency in organic light-emitting diodes with a hole-injection layer”; Appl. Phys. Lett. 93 (2008).
[16] W.A. Burrow, P.J. Green, C.W. Tang, et al.; “Degradation mechanisms in organic light emitting diodes”; Synthetic metals 111-112 (2000).
[17] K.H. Jung, J.Y. Bae, S.J. Park, S. Yoo, B.S. Bae; “High performance organic-inorganic hybrid barrier coating for encapsulation of OLEDs”; J. Mater. Chem. Vol. 21 (2011).
[18] K. Saxena, V.K. Jain, D.S. Mehta; “A review on the light extraction techniques in organic electroluminescent devices”, Optical Materials 32 (2009).
[19] S.W. Cheong, K.L. Woon; “Modeling of light extraction efficiency of scattering thin film using Mie scattering”; Optica Applicata, Vol. XLI, No. 1 (2011).
[20] B.Y. Jung et al., “Spectra characteristics of organic light-emitting diodes with (SiO2/TiO2) dielectric layers” Jorn. Of the Korean Physical Soc. 49, Is. 5 (2006).
[21] E. Hutten, J.H. Fendler; “Exploitation of Localized Surface Plasmon Resonance” Adv. Mater. 16, Is. 19 (2004).
[22] S. Pallai et al., “Surface Plasmon Enhanced Solar Cells” J. Appl. Phys. 101, Is. 9 (2007).