Organic Light Emitting Technology An Overview

Organic Light Emitting Technology - An Overview

  IJETT-book-cover  International Journal of Engineering Trends and Technology (IJETT)          
  
© 2017 by IJETT Journal
Volume-48 Number-3
Year of Publication : 2017
Authors : M.Josephine Mary Juliana
DOI :  10.14445/22315381/IJETT-V48P224

Citation 

M.Josephine Mary Juliana "Organic Light Emitting Technology - An Overview", International Journal of Engineering Trends and Technology (IJETT), V48(3),138-139 June 2017. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group

Abstract
The preponderance of light for the very existence of mankind is indispensible, therefore on this account the light emitting devices are the most insurmountable amongst diverse electronic devices. The phenomenon of light emission be it spontaneous or stimulated depends upon the structure, fabrication of the light emitting device and in particularly upon the semiconductor material used. Most important point of concern is that organic electronics offers astounding advantages over their peas and pod and thus have become an apple of the eye of today’s world technocrats. It is therefore vital and paramount to study about the organic light emitting technologies and for this cause the most prominent devices that fall under the roof of this technology are concisely discussed in this paper.

 References

[1] A. R. Brown, D. M. Deleeuw, E. J. Lous, E.E. Havinga, Synth. Met. 1994, 66, 257.
[2] Aziz, H.; Popovic, Z.; Tripp, C.; Xie, S.; Hor, A.; Xu, G. Appl. Phys. Lett. 1998, 72, 2642-2644.
[3] Braun, D.; Heeger, A. J. Appl. Phys. Lett 1991, 58, 1982-1984.
[4] Broms, P.; Birgersson, J.; Johansson, N.; Lögdlund, M.; Salaneck, W. R. Synth. Met. 1995, 74, 179-181.
[5] J. H. Burroughes, C. A. Jones, and R. H. Friend, “Novel semiconductor device physics in polymer diodes and transistors,” Nature, vol. 335, pp. 137–141, 1988.
[6] Carter, S. A.; Angelopoulos, M.; Karg, S.; Brock, P. J.; Scott, J. C. Appl. Phys. Lett. 1997, 70, 2067-2069.
[7] Crispin, X.; Geskin, V.; Crispin, A.; Cornil, J.; Lazzaroni, R.; Salaneck, W.R.; Brédas, J.L. J. Am. Chem. Soc. 2002, 124, 8131-8141.
[8] S. R. Forrest, “Organic-on-inorganic semiconductor heterojunctions: Building blocks for the next generation of optoelectronic devices?,” IEEE Circuits Devices Mag., vol. 5, pp. 33–41, 1989. w x 18 J.C. Scott, G.G.Malliaras, W.D. Chen, J.-C. Breach,J.R.Salem.
[9] D. J. Gundlach, Y. Y. Lin, T. N. Jackson, S. F. Nelson, D. G. Schlom, IEEE Electron. Device Lett. 1997, 18, 87.
[10] R. C. Haddon, A. S. Perel, R. C. Morris, T. T. M. Palstra, A. F. Hebard, R. M. Fleming, Appl. Phys. Lett. 1995, 67,
[11] Hosokawa, C.; Fukuoka, K; Kawamura, H. SID Digest 2004, 35, 780-783.
[12] G. Horowitz, Adv. Mater. 1998,
[13] Hill, I. G.; Rajagopal, A.; Kahn, A.; Hu, Y. Appl. Phys. Lett. 1998, 73, 662-664.
[14] Organic Field-E_ect Transistors Joy C. Perkinson November 19, 2007
[15] M. Kendall and M. Scholand, "Energy Savings Potential of Solid State Lighting in General lighting Applications" A.D.Little, Inc., Prepared for U.S. Department of Energy. .
P.J. Brock, S.B. Sachs, C.E.D. Chidsey, Appl. Phys. Lett. 74 1999 1510.
[16] J. G. Laquindanum, H. E. Katz, A. J. Lovinger, A. Dodabalapur, Chem. Mater. 1996, 8, 2542.
[17] J. G. Laquindanum, H.E. Katz, A. J. Lovinger, A. Dodabalapur, Adv. Mater. 1997, 9, 36.
[18] Ming-Yu Kuo, Hsing-Yin Chen, and Ito Chao, Cyanation: Providing a Three-in-One Advantage for the Design of n-Type Organic Field-E_ect Transistors," Chem. Eur. J. 2007, 13, 4750-4758.
[19] Marcus Halik, Hagen Klauk, and Ute Zschieschang, Gunter Schmid, Sergei Ponomarenko, Stephan Kirchmeyer, Werner Weber, Relationship Between Molecular Structure and Electrical Performance of Oligothiophene Organic Thin Film Transistors," Adv. Mater. 2003, 15, No. 11.
[20] Nicolas Drolet, Jean-Fran_cois Morin, Nicolas Leclerc, Salem Wakim, Te Tao, and Mario Leclerc, 2,7-Carbazolenevinylene-Based Oligomer Thin- Film Transistors: High Mobility Through Structural Ordering," Adv. Funct. Mater. 2005, 15, 1671-1682.
[21] Organic Field Effect Transistors Nir Tessler & Yohai Roichman Microelectronic and Nanoelectronic centres Electrical Engineering Dept. Technion, Israel Institute of Technology Haifa 32000 Israel
[22] Y. Roichman and N. Tessler, "Charge transport in conjugated polymers - the influence of charge concentration," Synthetic Metals, vol. 135-136, pp. 443-444, 2003.
[23] Organic light-emitting transistors with an efficiency that outperforms the equivalent light-emitting diodes Raffaella Capelli1*, Stefano Toffanin1, Gianluca Generali1, Hakan Usta2, Antonio Facchetti2 and Michele Muccini1,3*, Articles published online, Nature Materials, 2010
[24] Salem Wakim, Nicolas Blouin, Emilie Gingras, Ye Tao, and Mario Leclerc, Poly(2,7-carbazole) Derivatives as Semiconductors for Organic Thin-Film Transistors," Macromol. Rapid Commun. 2007, 28, 1798-1803.
[25] M. Vissenberg and M. Matters, "Theory of the field-effect mobility in amorphous organic transistors," Physical Review B, vol. 57, pp. 12964-12967, 1998.

Keywords
Organic semiconductors, OLED, OLET, excitons, electroluminescence, organic electronics, electronic textiles.