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Flexible organic led

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  • 1.  
  • 2. What the Flexible Organic Light Emitting Diode Consist of : The Top Layer is the Cathode layer made of tungsten releases electrons when current is run through it. Emissive Layer removes electrons from the cathode layer to make light. Conductive layer is made from a type of organic plastic that removes the electron wholes Then the Anode Layer that consist of removing and adding electron holes while the current is running through it and is made from graphite particles Followed by the Substrate layer is used to support the Organic LED and is made up of glass, clear plastic
  • 3. Some Advantages of Using Organic LED’s The Flexible Organic LED is easily mass produced because of its unique ability to be printed out on Ink Jet printers and sometimes Screen Printing Technologies. The enable people to see a wide ranged of colors and sit from almost any angle without degrading the picture quality even at 90 degree angles. It also has the unique ability to use less energy because of how its made up and has better response time than other LED’s. The problem of the longevity of the Organic LED has been over come by adding a thin sheet of metal in with it.
  • 4. Commercial Uses of the Organic LED
  • 5.
    • References
    • Callister William D. Jr and Rethwisch David G. (2008). Fundamentals of
    • Materials Science and Engineering An Integrated Approach. John Wiley and Sons inc. (2007). Pg 777
    • O. Prache, "Active matrix molecular OLED microdisplays" , Displays Volume 22, Issue 2, May 2001, Pages 49–56.
    http://www.scienceofspectroscopy.info/edit/index.php?title=OLED http://www.newlaunches.com/archives/sony_xel1_oled_tv_available_for_preorder.php http://www.inhabitat.com/2008/01/08/samsungs-super-sleek-31-oled-tv/ ; by Ali Kriscenski http://www.voidspace.org.uk/technology/top_ten_phone_techs.shtml#oled-displays http://www.lifeatmost.com/smartphone/nokia-n85-spotted-maybe/ D. Ammermann, A. Böhler, W. Kowalsky, Multilayer Organic Light Emitting Diodes for Flat Panel Displays , Institut für Hochfrequenztechnik, TU Braunschweig, 1995.
  • 6. D. A. Pardo, G. E. Jabbour, N. Peyghambarian, Application of Screen Printing in the Fabrication of Organic Light-Emitting Devices , Adv. Mater. 2000, 12 , No. 17, 1249. http://i-eclectica.org/2007/03/11/ ; Posted by: isiria, in DESIGN , IT Hardware http://www.universaldisplay.com/ Information taken by this person from References Continued