Solid state lighting devices including quantum confined semiconductor nanoparticles, an optical component for a solid state lighting device, and methods
First Claim
1. An endoscopy light source comprising a solid state lighting device comprising a phosphor converted LED light source that emits white light including a blue spectral component and having a deficiency in at least one spectral region, and an optical component that is positioned to receive at least a portion of the light generated by the phosphor-converted LED light source and supplement the spectrum of the white light passing through the optical component, the optical component comprising an optical material for converting at least a portion of the blue spectral component of the white light to one or more predetermined wavelengths such that light emitted by the solid state lighting device includes white light emission from the phosphor-converted LED light source supplemented with light emission at the one or more predetermined wavelengths in the at least one deficient spectral region of the phosphor-converted LED light source, wherein the optical material comprises quantum confined semiconductor nanocrystals distributed in a light-transmissive solid host material, wherein the optical material is fully encapsulated by one or more barrier materials, wherein the optical component is not in direct contact with the phosphor-converted LED light source, wherein the at least one predetermined wavelength comprises a wavelength in a range from about 575 nm to about 650 nm,wherein the quantum confined semiconductor nanocrystal comprises a Group II-VI compound, a Group II-V compound, a Group III-VI compound, a Group III-V compound, a Group IV-VI compound, a Group I-III-VI compound, a Group II-IV-VI compound, or a Group II-IV-V compound, and wherein the light emitted by the sold state lighting device has a General Color Rendering Index (Ra) greater than 80.
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Abstract
A solid state lighting device including a light source capable of emitting white light including a blue spectral component and having a deficiency in a spectral region, and an optical component that is positioned to receive at least a portion of the light generated by the light source, the optical component comprising an optical material for converting at least a portion of the blue spectral component of the light to one or more predetermined wavelengths such that light emitted by the solid state lighting device includes light emission from the light source supplemented with light emission at one or more predetermined wavelengths, wherein the optical material comprises quantum confined semiconductor nanoparticles. Also disclosed is lighting fixture, a cover plate for a lighting fixture and a method.
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Citations
20 Claims
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1. An endoscopy light source comprising a solid state lighting device comprising a phosphor converted LED light source that emits white light including a blue spectral component and having a deficiency in at least one spectral region, and an optical component that is positioned to receive at least a portion of the light generated by the phosphor-converted LED light source and supplement the spectrum of the white light passing through the optical component, the optical component comprising an optical material for converting at least a portion of the blue spectral component of the white light to one or more predetermined wavelengths such that light emitted by the solid state lighting device includes white light emission from the phosphor-converted LED light source supplemented with light emission at the one or more predetermined wavelengths in the at least one deficient spectral region of the phosphor-converted LED light source, wherein the optical material comprises quantum confined semiconductor nanocrystals distributed in a light-transmissive solid host material, wherein the optical material is fully encapsulated by one or more barrier materials, wherein the optical component is not in direct contact with the phosphor-converted LED light source, wherein the at least one predetermined wavelength comprises a wavelength in a range from about 575 nm to about 650 nm,
wherein the quantum confined semiconductor nanocrystal comprises a Group II-VI compound, a Group II-V compound, a Group III-VI compound, a Group III-V compound, a Group IV-VI compound, a Group I-III-VI compound, a Group II-IV-VI compound, or a Group II-IV-V compound, and wherein the light emitted by the sold state lighting device has a General Color Rendering Index (Ra) greater than 80.
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16. A method for improving lumens per watt efficiency of a white light emitting solid state semiconductor light emitting device having a spectral output including emissions in the blue and yellow spectral regions, the method comprising:
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passing at least a portion of the blue emission into an optical material to convert at least a portion of the blue spectral emission into one or more emissions in an orange to red spectral region, the optical material comprising quantum confined semiconductor nanocrystals distributed in a light transmissive solid host material, wherein the orange to red spectral region is in a range from about 575 nm to about 650 nm, wherein the quantum confined semiconductor nanocrystal comprises a Group II-VI compound, a Group II-V compound, a Group III-VI compound, a Group III-V compound, a Group IV-VI compound, a Group I-III-VI compound, a Group II-IV-VI compound, or a Group II-IV-V compound, and wherein the light emitted by the solid state lighting device has a General Color Rendering Index (Ra) greater than 80.
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17. A solid state lighting device, comprising:
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a phosphor converted LED light source that emits white light including a blue spectral component and having a deficiency in at least one spectral region and an optical component that is positioned to receive at least a portion of the white light generated by the light source and supplement the spectrum of the white light passing through the optical component, the optical component comprising an optical material for converting at least a portion of the blue spectral component of the white light to one or more predetermined wavelengths such that light emitted by the solid state lighting device includes white light emission from the light source supplemented with light emission at the one or more predetermined wavelengths in the at least one deficient spectral region of the light source, wherein the optical material comprises quantum confined semiconductor nanocrystals distributed in a light transmissive solid host material and wherein the optical component comprises the optical material sandwiched between two barrier films or coatings, wherein at least one predetermined wavelength is in a range from about 575 nm to about 650 nm, wherein the quantum confined semiconductor nanocrystal comprises a Group II-VI compound, Group II-V compound, at Group III-VI compound, a Group III-V compound, a Group IV-VI compound, a Group I-III-VI compound, a Group II-IV-VI compound, or a Group II-IV-V compound, and wherein the light emitted by the solid state lighting device has a General Color Rendering Index (Ra) greater than 80. - View Dependent Claims (18, 19, 20)
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Specification