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Media Advisory Images

 



NSF PA/M 03-03 - January 13, 2003

Note About Images

 

a polymer/silica composite material
Caption: This image depicts a polymer/silica composite material studied by the Tolbert and Schwartz research groups at UCLA. The graphic shows the glass composite and its channels, with an embedded, semiconducting polymer (orange). Excitations (yellow glows) flow in one direction - from the exterior segments to the interior segments - along the energy gradient. The research appears in Science (2000), volume 288, page 652.
Credit: Graphic by Dan Schwartz, D.I.S.C., based upon materials created and studied by the Benjamin J. Schwartz and Sarah Tolbert research groups at UCLA, supported in part by NSF.
A higher resolution image is available on request.

 

Photo of a map
Caption: Nanothick, organic light-emitting device deposited on plastic foil and patterned as a map via electrode conductivity modification using a desktop inkjet printer.
Credit: Prof. Ghassan E. Jabbour, Optical Sciences Center, University of Arizona
Select image for a larger version
(Size: 316KB) , or download a larger TIFF version of image (316KB)

device deposited on paper
Caption: Nanothick, organic, light-emitting device deposited on paper and patterned via electrode conductivity modification using a desktop inkjet printer.
Credit: Ghassan E. Jabbour, Optical Sciences Center, University of Arizona
Select image for larger version
(Size: 345KB) , or download a larger TIFF version of image (345KB)

example of waterproof plastic circuitry
Caption: An example of waterproof plastic circuitry, these organic transistor arrays are fabricated by laminating together two plastic sheets, each supporting different device components. In addition to being unaffected by water, the embedded circuits can be bent and folded.
Credit: Lynn Loo, University of Texas at Austin; Bell Laboratories; Lucent Technologies
Select image for larger version
(Size: 958KB) , or download a larger TIFF version of image (958KB)

device where the metal cathode was patterned and deposited using screen printing
Caption: Single-layer, nanothick, organic, light-emitting device where the metal cathode was patterned and deposited using screen printing.
Credit: Ghassan E. Jabbour, Optical Sciences Center, University of Arizona
Select image for larger version
(Size: 352KB) , or download a larger TIFF version of image (352KB)

Photo of device deposited on textile via screen printing
Caption: Nanothick, organic, light-emitting device deposited on textile via screen printing.
Credit: Ghassan E. Jabbour, Optical Sciences Center, University of Arizona
Select image for larger version
(Size: 790KB) , or download a larger TIFF version of image (790KB)

Photo of Nanoditches
Caption: Nanoditches fabricated using a carbon nanotube as a contact mask .
Credit: Robert M. Metzger, University of Alabama, and the National Science Foundation
Select image for larger version
(Size: 1006KB) , or download a larger TIFF version of image (1006KB)

Photo of Flexible organic light emitting display
Caption: Flexible organic light emitting display (FOLEDTM) developed by Universal Display Corporation (UDC). The passive matrix display is fabricated on a 0.175 mm thick sheet of plastic, has a resolution of 80 dpi, 64 levels of grey scale and can show full motion video. The FOLEDTM was invented by Professor Stephen Forrest and his research team at Princeton University and is now under development at UDC.
Credit: Image courtesy of Universal Display Corporation.
Select image for larger version
(Size: 664KB) , or download a larger TIFF version of image (664KB)

Photo of device deposited on plastic foil
Caption: Nanothick, organic light-emitting device deposited on plastic foil and patterned as a map via electrode conductivity modification using a desktop inkjet printer. (Same device as above)
Credit: Ghassan E. Jabbour, Optical Sciences Center, University of Arizona
Select image for larger version
(Size: 841KB) , or download a larger TIFF version of image (841KB)

Photo of example of waterproof plastic circuitry
Caption: An example of waterproof plastic circuitry, these organic transistor arrays are fabricated by laminating together two plastic sheets, each supporting different device components. In addition to being unaffected by water, the embedded circuits can be bent and folded.
Credit: Lynn Loo, University of Texas at Austin; Bell Laboratories; Lucent Technologies
Select image for larger version
(Size: 1.7MB) , or download a larger TIFF version of image (1.7MB)

Photo of example of waterproof plastic circuitry
Caption: An example of waterproof plastic circuitry, these organic transistor arrays are fabricated by laminating together two plastic sheets, each supporting different device components. In addition to being unaffected by water, the embedded circuits can be bent and folded.
Credit: : Lynn Loo, University of Texas at Austin; Bell Laboratories; Lucent Technologies
Select image for larger version
(Size: 1.21MB) , or download a larger TIFF version of image (1.21MB)

Photo of device deposited on textile via inkjet printing
Caption: Nanothick, organic, light-emitting device deposited on textile via inkjet printing.
Credit: Ghassan E. Jabbour, Optical Sciences Center, University of Arizona
Select image for larger version
(Size: 685KB) , or download a larger TIFF version of image (685KB)

Photo of tweezers holding a ruthenium bipyridine wafer
Caption: A pair of tweezers holds a ruthenium bipyridine wafer that serves as the base for six efficient, single layer, solid state, light-emitting devices - one of the devices is lit. These devices are being developed for applications in flat panel displays and lighting.
Credit: The Malliaras Group, Cornell University, and the National Science Foundation.
Select image for larger version
(Size: 944KB) , or download a larger TIFF version of image (944KB)

Photo of ATM images
Caption: Atomic force microscope image of hexagonally ordered array of alumina nanopores fabricated by anodization, viewed from the top. Image is 8 microns x 8 microns.
Credit: : Robert M. Metzger, University of Alabama, and the National Science Foundation
Select image for larger version
(Size: 781KB) , or download a larger TIFF version of image (781KB)

Photo of ATM images
Caption: Atomic force microscope image of hexagonally ordered array of alumina nanopores fabricated by anodization, viewed from the top. Image is 1micron x 1 micron.
Credit: Robert M. Metzger, University of Alabama, and the National Science Foundation
Select image for larger version
(Size: 780KKB) , or download a larger TIFF version of image (780KB)

 Note About Images

 
 
     
 

 
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