| Patent Number |
Title Of Patent |
Date Issued |
| 7605327 |
Photovoltaic devices fabricated from nanostructured template |
October 20, 2009 |
| Photovoltaic devices, such as solar cells, and methods for their manufacture are disclosed. A device may be characterized by an architecture having a nanostructured template made from an n-type first charge transfer material with template elements between about 1 nm and about 500 nm |
| 7462774 |
Photovoltaic devices fabricated from insulating nanostructured template |
December 9, 2008 |
| Photovoltaic devices, such as solar cells, and methods for their manufacture are disclosed. A device may be characterized by an architecture with an inorganic insulating nanostructured template having template elements between about 1 nm and about 500 nm in diameter with a elements d |
| 7365442 |
Encapsulation of thin-film electronic devices |
April 29, 2008 |
| One embodiment of this invention pertains to multiple encapsulated thin-film electronic devices. These encapsulated devices include a substrate and multiple thin-film electronic devices are on this substrate. Each of the multiple thin-film electronic devices has an active area. The e |
| 7319440 |
Organic light emitting diode light source |
January 15, 2008 |
| A novel OLED light source and method for controlling said OLED light source panel are disclosed wherein said light source is constructed such that active areas are segmented and said segments are separately addressable. In one embodiment, the segments are a series of RGB lines or str |
| 7122398 |
Manufacturing of optoelectronic devices |
October 17, 2006 |
| A method for manufacturing optoelectronic devices is disclosed. A layered structure may be formed with a plurality of layers including a bottom electrode layer, a top electrode layer, and one or more active layers between the top and bottom electrode layers. The layered structure is |
| 7121642 |
Drop volume measurement and control for ink jet printing |
October 17, 2006 |
| A system and method is presented for measuring the volume of an ink-jet droplet or the relative volumes of a plurality of ink-jet droplets using their electrical properties. In a preferred embodiment a single small capacitor or an array of capacitors is used to measure the dielectric |
| 7115304 |
High throughput surface treatment on coiled flexible substrates |
October 3, 2006 |
| One or more substrates may be coiled into one or more coils in such a way that adjacent turns of the coils do not touch one another. The one or more coiled substrates are placed in a treatment chamber where substantially an entire surface of the one or more coiled substrates may be t |
| 6949389 |
Encapsulation for organic light emitting diodes devices |
September 27, 2005 |
| An embodiment of an encapsulated OLED device is described. This embodiment of the encapsulated OLED device is formed by: fabricating multiple OLED devices on a substrate; depositing at least one planarization layer on the OLED devices; hardening the at least one planarization layer in a |
| 6946597 |
Photovoltaic devices fabricated by growth from porous template |
September 20, 2005 |
| Photovoltaic devices, such as solar cells, and methods for their manufacture are disclosed. A device may be characterized by an architecture where two more materials having different electron affinities are regularly arrayed such that their presence alternates within distances of bet |
| 6936761 |
Transparent electrode, optoelectronic apparatus and devices |
August 30, 2005 |
| Transparent conductive electrodes, optoelectronic apparatus, optoelectronic devices and methods for making such electrodes, apparatus and devices are disclosed. The transparent conducting electrode (TCE) includes a layer of transparent electrically conducting polymer material and an arra |
| 6936407 |
Thin-film electronic device module |
August 30, 2005 |
| In an embodiment of this invention, an encapsulated electronic thin-film device includes a substrate and an active area is fabricated on the substrate. The active area is comprised of at least one electronic thin-film element. A thin-film encapsulation layer is selectively deposited |
| 6911667 |
Encapsulation for organic electronic devices |
June 28, 2005 |
| An embodiment of the present invention pertains to encapsulating an organic electronic device by selectively depositing a catalyst layer and then exposing the catalyst layer to a monomer to produce a planarization layer. The monomer reacts only in the areas where the catalyst layer is pr |
| 6797919 |
Laser ablation nozzle assembly |
September 28, 2004 |
| A laser ablation system includes a first embodiment of a nozzle assembly where a laser beam is emitted through the nozzle assembly to remove materials on a target. The nozzle assembly includes a nozzle having a top end, and a window placed on the top end of the nozzle. The window include |
| 6794676 |
Fabrication of organic light emitting diode using selective printing of conducting polymer layer |
September 21, 2004 |
| A novel method for fabricating an OLED display is disclosed wherein the conducting polymer layer is selectively deposited over the surface of the display such that the conducting polymer is kept away from areas where its presence is either not required for the resulting structure or is |
| 6683277 |
Laser ablation nozzle assembly |
January 27, 2004 |
| A laser ablation system includes a first embodiment of a nozzle assembly where a laser beam is emitted through the nozzle assembly to remove materials on a target. The nozzle assembly includes a nozzle having a top end, and a window placed on the top end of the nozzle. The window include |
| 6680578 |
Organic light emitting diode light source |
January 20, 2004 |
| A novel OLED light source and method for controlling said OLED light source panel are disclosed wherein said light source is constructed such that active areas are segmented and said segments are separately addressable. In one embodiment, the segments are a series of RGB lines or stripes |
| 6569706 |
Fabrication of organic light emitting diode using selective printing of conducting polymer layer |
May 27, 2003 |
| A novel method for fabricating an OLED display is disclosed wherein the conducting polymer layer is selectively deposited over the surface of the display such that the conducting polymer is kept away from areas where its presence is either not required for the resulting structure or is |
