Visibly transparent, luminescent solar concentrator
First Claim
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1. A visibly transparent photovoltaic system, comprising:
- a visibly transparent substrate having a top surface, a bottom surface, and a plurality of side edges, wherein the visibly transparent substrate exhibits an average visible band transmission of 45% or more;
a luminescent dye layer coupled to the visibly transparent substrate, wherein the luminescent dye layer exhibits;
absorption at all wavelengths in a visible band of from 0% to 50%,a peak absorption wavelength in an ultraviolet band or a near-infrared band, anda peak photoluminescent emission wavelength in the near-infrared band;
a photovoltaic device positioned at a side edge of the plurality of side edges to receive photoluminescent emission from the luminescent dye layer, wherein the photovoltaic device absorbs light in the near-infrared band for generation of electrical energy;
a wavelength selective mirror coupled to the top surface, wherein the wavelength selective mirror reflects light at the peak photoluminescent emission wavelength, transmits light at the peak absorption wavelength, and transmits light in the visible band; and
a second wavelength selective mirror coupled to the bottom surface, wherein the second wavelength selective mirror reflects light at the peak photoluminescent emission wavelength, transmits light at the peak absorption wavelength, and transmits light in the visible band.
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Abstract
A visibly transparent luminescent solar concentrator (LSC) is disclosed. The LSC includes a transparent substrate having at least one edge surface. A dye layer is coupled to the substrate, the dye layer having a peak absorption wavelength outside the visible band, the dye layer being configured to re-emit light at a peak emission wavelength outside the visible band, at least a portion of the re-emitted light being waveguided to the edge surface of the substrate. A photovoltaic device is coupled to the edge surface of the transparent substrate, the photovoltaic device being configured to absorb light at the peak emission wavelength and generate electrical energy.
21 Citations
14 Claims
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1. A visibly transparent photovoltaic system, comprising:
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a visibly transparent substrate having a top surface, a bottom surface, and a plurality of side edges, wherein the visibly transparent substrate exhibits an average visible band transmission of 45% or more; a luminescent dye layer coupled to the visibly transparent substrate, wherein the luminescent dye layer exhibits; absorption at all wavelengths in a visible band of from 0% to 50%, a peak absorption wavelength in an ultraviolet band or a near-infrared band, and a peak photoluminescent emission wavelength in the near-infrared band; a photovoltaic device positioned at a side edge of the plurality of side edges to receive photoluminescent emission from the luminescent dye layer, wherein the photovoltaic device absorbs light in the near-infrared band for generation of electrical energy; a wavelength selective mirror coupled to the top surface, wherein the wavelength selective mirror reflects light at the peak photoluminescent emission wavelength, transmits light at the peak absorption wavelength, and transmits light in the visible band; and a second wavelength selective mirror coupled to the bottom surface, wherein the second wavelength selective mirror reflects light at the peak photoluminescent emission wavelength, transmits light at the peak absorption wavelength, and transmits light in the visible band. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of making a visibly transparent photovoltaic system, the method comprising:
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providing a visibly transparent substrate having a top surface, a bottom surface, and a plurality of side edges, wherein the visibly transparent substrate exhibits an average visible band transmission of 45% or more; coupling a luminescent dye layer to the visibly transparent substrate, wherein the luminescent dye layer exhibits; absorption at all wavelengths in a visible band of from 0% to 50%, a peak absorption wavelength in an ultraviolet band or a near-infrared band, and a peak photoluminescent emission wavelength in the near infrared band; coupling a photovoltaic device to a side edge of the plurality of side edges to position the photovoltaic device to receive photoluminescent emission from the luminescent dye layer, wherein the photovoltaic device absorbs light in the near-infrared band for generation of electrical energy; coupling a wavelength selective mirror to the top surface, wherein the wavelength selective mirror reflects light at the peak photoluminescent emission wavelength, transmits light at the peak absorption wavelength, and transmits light in the visible band; and comprising coupling a second wavelength selective mirror to the bottom surface, wherein the second wavelength selective mirror reflects light at the peak photoluminescent emission wavelength, transmits light at the peak absorption wavelength, and transmits light in the visible band. - View Dependent Claims (12, 13)
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14. A method of generating electricity, the method comprising:
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providing a visibly transparent photovoltaic system, wherein the visibly transparent photovoltaic system includes; a visibly transparent substrate having a top surface, a bottom surface, and a plurality of side edges, wherein the visibly transparent substrate exhibits an average visible band transmission of 45% or more; a luminescent dye layer coupled to the visibly transparent substrate, wherein the luminescent dye layer exhibits; absorption at all wavelengths in a visible band of from 0% to 50%, a peak absorption wavelength in an ultraviolet band or a near-infrared band, and a peak photoluminescent emission wavelength in the near-infrared band; a photovoltaic device positioned at a side edge of the plurality of side edges to receive photoluminescent emission from the luminescent dye layer, wherein the photovoltaic device absorbs light in the near-infrared band for generation of electrical energy; a wavelength selective mirror coupled to the top surface, wherein the wavelength selective mirror reflects light at the peak photoluminescent emission wavelength, transmits light at the peak absorption wavelength, and transmits light in the visible band; and a second wavelength selective mirror coupled to the bottom surface, wherein the second wavelength selective mirror reflects light at the peak photoluminescent emission wavelength, transmits light at the peak absorption wavelength, and transmits light in the visible band; and exposing the visibly transparent photovoltaic system to incident light having wavelengths in the visible band, wavelengths in the ultraviolet band, and wavelengths in the near-infrared band, wherein at least a portion of the incident light having wavelengths in the visible band are transmitted through the visibly transparent substrate and the luminescent dye layer, wherein the luminescent dye layer absorbs at least a portion of the incident light having wavelengths in the near-infrared band or wavelengths in the ultraviolet band, or both, and generates photoluminescent emission with the peak photoluminescent emission wavelength in the near-infrared band, and wherein at least a portion of the photoluminescent emission is absorbed by the photovoltaic device to generate electricity.
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Current AssigneeMassachusetts Institute of Technology
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Original AssigneeMassachusetts Institute of Technology
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InventorsLunt, Richard Royal, Bulovic, Vladimir, Barr, Miles Clark
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Primary Examiner(s)Slawski, Magali P
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Application NumberUS15/967,165Publication NumberTime in Patent Office967 DaysField of SearchNoneUS Class CurrentCPC Class CodesH01L 31/055 where light is absorbed and...Y02E 10/52 PV systems with concentrators
