Surface coating with enhanced color contrast for video display
First Claim
1. For use on an outer surface of a glass faceplate of a self-emitting display device, wherein said glass faceplate further includes a phosphor coating on an inner surface thereof, and wherein said phosphor:
- coating is responsive to energetic electrons incident thereon for providing three primary colors of red, green and blue, a coating comprising;
an antireflective/antistatic layer disposed on the outer surface of said faceplate and containing silane;
at least one organic color dye disposed in said antireflective/antistatic layer for absorbing light between two adjacent primary colors; and
a silane binding agent disposed in said antireflective/antistatic layer for coupling said at least one organic color dye to the silane in said layer, wherein said silane binding agent is Y-amino propyl triethoxy silane.
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Accused Products
Abstract
For use in a self-emitting color display device such as a cathode ray tube (CRT) having a display screen with a phosphor coating on its inner surface, a surface coating disposed on the display screen'"'"'s outer surface affords improved color purity, or contrast, by reducing overlap in the color spectrum between two adjacent primary colors, i.e., between red and green and/or between green and blue. An organic dye is added to either an inner antistatic layer or an outer antireflective layer of an antireflective/antistatic outer coating on the display screen, where both of the aforementioned layers contain silane. The dye functions as a color filter absorbing only light within the frequency range between adjacent primary colors, such as between the red and green color phosphors, i.e., in the range of 460-500 nm, and/or between the green and blue color phosphors, i.e., in the range of 560-600 nm. A silane coupling agent is also added to serve as a binding agent bridging the organic dye and silane together. In this manner, the organic dye is bonded to the silane in either the antistatic layer or the antireflective layer to prevent separation and escape of the organic dye filter from either of these layers of the outer coating on the display screen.
28 Citations
16 Claims
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1. For use on an outer surface of a glass faceplate of a self-emitting display device, wherein said glass faceplate further includes a phosphor coating on an inner surface thereof, and wherein said phosphor:
- coating is responsive to energetic electrons incident thereon for providing three primary colors of red, green and blue, a coating comprising;
an antireflective/antistatic layer disposed on the outer surface of said faceplate and containing silane; at least one organic color dye disposed in said antireflective/antistatic layer for absorbing light between two adjacent primary colors; and a silane binding agent disposed in said antireflective/antistatic layer for coupling said at least one organic color dye to the silane in said layer, wherein said silane binding agent is Y-amino propyl triethoxy silane. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- coating is responsive to energetic electrons incident thereon for providing three primary colors of red, green and blue, a coating comprising;
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10. A method for preparing and applying a coating with enhanced color contrast to an outer surface of a video display panel whereon are presented the primary colors of red, green and blue, said method comprising the steps of:
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adding a combination of anorganic color dye and a silane binding agent to a coating solution containing silane in forming a bond between said organic color dye and said silane and preventing removal of said organic color dye from said coating solution, wherein said organic color dye absorbs light between and enhances spectral separation between two adjacent primary colors and wherein said silane binding agent is Y-amino propyl triethoxy silane; preheating the video display panel to a first temperature; applying said coating solution containing said organic color dye and silane binding agent combination to an outer surface of the video display panel; heating the video display panel with said coating solution to a second temperature for a time period, wherein said second temperature is greater than said first temperature; and air cooling the video display panel to room temperature. - View Dependent Claims (11, 12, 13, 14, 15, 16)
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Specification