Flexible lighting device having unobtrusive conductive layers
First Claim
1. A method of forming a lighting element, comprising:
- forming a first substrate;
forming a first transparent conductive layer over the first substrate;
forming a second transparent conductive layer over the first substrate;
applying a first conductive element over a first part of the first substrate and over the first transparent conductive layer;
applying a second conductive element over a second part of the first substrate and over the second transparent conductive layer;
installing a light-emitting element over a third part of the first substrate such that a first contact of the light-emitting element is electrically connected to the first conductive element through the first transparent conductive layer and such that a second contact of the light-emitting element is electrically connected to the second conductive element through the second transparent conductive layer, the first and second contacts both being on a first surface of the light-emitting element;
forming a transparent affixing layer over the first substrate; and
forming a transparent layer over the light-emitting element and the transparent affixing layer such that the transparent affixing layer affixes the transparent layer to the first substrate,whereinthe transparent layer and the transparent affixing layer are both sufficiently transparent to visible light such that they will not decrease light transmittance below 70%,the light-emitting element is configured to emit light having a first narrow range of wavelengths between 10 nm and 100,000 nm from a second surface of the light-emitting element;
the first and second conductive elements are both made of a material that is at least partially transparent to visible light, andthe first and second transparent conductive layers are both sufficiently transparent to visible light such that they will not decrease light transmittance below 70%, andthe first, second, and third parts of the substrate are separate from each other.
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Accused Products
Abstract
A flexible lighting element is provided, comprising: a first substrate; first and second conductive elements over the first substrate; a light-emitting element having first and second contacts that are both on a first surface of the light-emitting element, the first and second contacts being electrically connected to the first and second conductive elements, respectively, and the light-emitting element emitting light from a second surface opposite the first surface; a transparent layer located adjacent to the second surface; and a transparent affixing layer located between the first substrate and the transparent layer, wherein the transparent layer and the transparent affixing layer are both sufficiently transparent to visible light that they will not decrease light transmittance below 70%, and the first and second conductive layers are at least partially transparent to visible light, or are 300 μm or smaller in width, or are concealed by a design feature from a viewing direction.
55 Citations
9 Claims
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1. A method of forming a lighting element, comprising:
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forming a first substrate; forming a first transparent conductive layer over the first substrate; forming a second transparent conductive layer over the first substrate; applying a first conductive element over a first part of the first substrate and over the first transparent conductive layer; applying a second conductive element over a second part of the first substrate and over the second transparent conductive layer; installing a light-emitting element over a third part of the first substrate such that a first contact of the light-emitting element is electrically connected to the first conductive element through the first transparent conductive layer and such that a second contact of the light-emitting element is electrically connected to the second conductive element through the second transparent conductive layer, the first and second contacts both being on a first surface of the light-emitting element; forming a transparent affixing layer over the first substrate; and forming a transparent layer over the light-emitting element and the transparent affixing layer such that the transparent affixing layer affixes the transparent layer to the first substrate, wherein the transparent layer and the transparent affixing layer are both sufficiently transparent to visible light such that they will not decrease light transmittance below 70%, the light-emitting element is configured to emit light having a first narrow range of wavelengths between 10 nm and 100,000 nm from a second surface of the light-emitting element; the first and second conductive elements are both made of a material that is at least partially transparent to visible light, and the first and second transparent conductive layers are both sufficiently transparent to visible light such that they will not decrease light transmittance below 70%, and the first, second, and third parts of the substrate are separate from each other. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of forming a lighting element, comprising:
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forming a first substrate; forming a first transparent conductive layer over the first substrate; forming a second transparent conductive layer over the first substrate; applying a first conductive element over a first part of the first substrate and over the first transparent conductive layer; applying a second conductive element over a second part of the first substrate and over the second transparent conductive layer; installing a first light-emitting element over a third part of the first substrate such that a first contact of the first light-emitting element is electrically connected to the first conductive element through the first transparent conductive layer and such that a second contact of the first light-emitting element is electrically connected to the second conductive element through the second transparent conductive layer, the first and second contacts both being on a first surface of the first light-emitting element; installing a second light-emitting element over a fourth part of the first substrate such that a third contact of the second light-emitting element is electrically connected to the first conductive element through the first transparent conductive layer and such that a fourth contact of the second light-emitting element is electrically connected to the second conductive element through the second transparent conductive layer, the third and fourth contacts both being on a first surface of the second light-emitting element; forming a transparent affixing layer over the first substrate; and forming a transparent layer over the first light-emitting element, the second light-emitting element, and the transparent affixing layer such that the transparent affixing layer affixes the transparent layer to the first substrate, wherein the transparent layer and the transparent affixing layer are both sufficiently transparent to visible light such that they will not decrease light transmittance below 70%, the first light-emitting element is configured to emit light having a first narrow range of wavelengths between 10 nm and 100,000 nm from a second surface of the first light-emitting element; the second light-emitting element is configured to emit light having a second narrow range of wavelengths between 10 nm and 100,000 nm from a second surface of the second light-emitting element; the first and second conductive elements are both made of a material that is at least partially transparent to visible light, and the first and second transparent conductive layers are both sufficiently transparent to visible light such that they will not decrease light transmittance below 70%, and the first, second, third, and fourth parts of the substrate are separate from each other.
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9. A method of forming a lighting element, comprising:
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forming a first substrate; forming a first transparent conductive layer over the first substrate; forming a second transparent conductive layer over the first substrate; forming a third transparent conductive layer over the first substrate; forming a fourth transparent conductive layer over the first substrate; applying a first conductive element over a first part of the first substrate and over the first and third transparent conductive layers; applying a second conductive element over a second part of the first substrate and over the second and fourth transparent conductive layers; installing a first light-emitting element over a third part of the first substrate such that a first contact of the first light-emitting element is electrically connected to the first conductive element through the first transparent conductive layer and such that a second contact of the first light-emitting element is electrically connected to the second conductive element through the second transparent conductive layer, the first and second contacts both being on a first surface of the first light-emitting element; installing a second light-emitting element over a fourth part of the first substrate such that a third contact of the second light-emitting element is electrically connected to the first conductive element through the third transparent conductive layer and such that a fourth contact of the second light-emitting element is electrically connected to the second conductive element through the fourth transparent conductive layer, the third and fourth contacts both being on a first surface of the second light-emitting element; forming a transparent affixing layer over the first substrate; and forming a transparent layer over the first light-emitting element, the second light-emitting element, and the transparent affixing layer such that the transparent affixing layer affixes the transparent layer to the first substrate, wherein the transparent layer and the transparent affixing layer are both sufficiently transparent to visible light such that they will not decrease light transmittance below 70%, the first light-emitting element is configured to emit light having a first narrow range of wavelengths between 10 nm and 100,000 nm from a second surface of the first light-emitting element; the second light-emitting element is configured to emit light having a second narrow range of wavelengths between 10 nm and 100,000 nm from a second surface of the second light-emitting element; the first and second conductive elements are both made of a material that is at least partially transparent to visible light, and the first, second, third, and fourth transparent conductive layers are all sufficiently transparent to visible light such that they will not decrease light transmittance below 70%, and the first, second, third, and fourth parts of the substrate are separate from each other.
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Specification