Solar collector structures containing thin film polysiloxane, and solar cells

US 4,173,495 A
Filed: 05/03/1978
Issued: 11/06/1979
Est. Priority Date: 05/03/1978
Status: Expired due to Term

First Claim

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1. A luminescent solar collector and concentrator comprising a radiation collection medium for receiving incident solar radiation, said medium containing at least one luminescent species capable of emitting luminescent radiation upon excitation with incident solar radiation, said medium being totally internally reflective of a major portion of said emitted luminescent radiation, wherein said radiation collection medium is a composite structure comprising a thin layer of a thermoset polysiloxane of a trifunctional silane containing dispersed therein at least one luminescent species, said layer being optically coupled to a thick radiation conducting layer of at least 0.5 mm thickness, which thick layer (1) is totally internally reflective of a major portion of said emitted luminescent radiation, (2) has an index of refraction close to that of said thin layer, (3) is less absorptive of said emitted luminescent radiation than said thin layer and (4) has a thickness ratio to said thin layer of higher than 4:

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Abstract

Disclosed is a composite collector and concentrator structure comprising a laminate having a self-supporting layer of solid light transmitting material of extended area in one plane in optical contact with a relatively thin layer of a silicone resin derived from a trifunctional silane containing at least one species of luminescent material which absorbs electromagnetic radiation and emits electromagnetic radiation of a longer wave length. Use with photovoltaic solar cells is also disclosed.

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12 Claims

1. A luminescent solar collector and concentrator comprising a radiation collection medium for receiving incident solar radiation, said medium containing at least one luminescent species capable of emitting luminescent radiation upon excitation with incident solar radiation, said medium being totally internally reflective of a major portion of said emitted luminescent radiation, wherein said radiation collection medium is a composite structure comprising a thin layer of a thermoset polysiloxane of a trifunctional silane containing dispersed therein at least one luminescent species, said layer being optically coupled to a thick radiation conducting layer of at least 0.5 mm thickness, which thick layer (1) is totally internally reflective of a major portion of said emitted luminescent radiation, (2) has an index of refraction close to that of said thin layer, (3) is less absorptive of said emitted luminescent radiation than said thin layer and (4) has a thickness ratio to said thin layer of higher than 4:
- 1.
- View Dependent Claims (2, 3, 4, 5)
- - 2. A collector and concentrator of claim 1 wherein said thick layer also contains a luminescent species.
  - 3. A collector and concentrator of claim 1 wherein said thin layer contains at least two luminescent species, the first of which has an emission spectrum overlapping the absorption spectrum of the other, said two luminescent species having a concentration sufficiently high that the major mode of activation of said other species by said first species is radiationless.
  - 4. A collector and concentrator of claim 1 wherein said thick layer is a glass.
  - 5. A collector and concentrator of claim 4 wherein said glass contains a luminescent species which absorbs ultraviolet light and emits light of a longer wave length.

6. A luminescent solar collector and concentrator comprising a radiation collection medium for receiving incident solar radiation, said medium containing at least one luminescent species capable of emitting luminescent radiation upon excitation with incident solar radiation, said medium being totally internally reflective of a major portion of said emitted luminescent radiation, a relatively small surface area of said medium being optically coupled to a photovoltaic solar cell responsive to said emitted luminescent radiation, wherein said radiation collection medium is a composite structure comprising a thin layer of a thermoset polysiloxane of a trifunctional silane containing dispersed therein at least one luminescent species, said layer being optically coupled to a thick radiation conducting layer of at least 0.5 mm thickness, which thick layer (1) is totally internally reflective of a major portion of said emitted luminescent radiation, (2) has an index of refraction close to that of said thin layer, (3) is less absorptive of said emitted luminescent radiation than said thin layer and (4) has a thickness ratio to said thin layer of higher than 4:
- 1.
- View Dependent Claims (7, 8, 9, 10)
- - 7. A collector and concentrator of claim 6 wherein said thick layer also contains a luminescent species.
  - 8. A collector and concentrator of claim 6 wherein said thin layer contains at least two luminescent species, the first of which has an emission spectrum overlapping the absorption spectrum of the other, said two luminescent species having a concentration sufficiently high that the major mode of activation of said other species by said first species is radiationless.
  - 9. A collector and concentrator of claim 6 wherein said thick layer is a glass.
  - 10. A collector and concentrator of claim 9 wherein said glass contains a luminescent species which absorbs ultraviolet light and emits light of a longer wave length.

11. A luminescent solar collector and concentrator comprising a radiation collection medium for receiving incident solar radiation, said medium containing at least one luminescent species capable of emitting luminescent radiation upon excitation with incident solar radiation, said medium being totally internally reflective of a major portion of said emitted luminescent radiation, wherein said radiation collection medium is a composite structure comprising a thin layer of a thermoset polysiloxane of a trifunctional silane containing dispersed therein at least one luminescent species, said layer being optically coupled to a thick radiation conducting layer of at least 0.5 mm thickness, which thick layer (1) is totally internally reflective of a major portion of said emitted luminescent radiation, (2) has an index of refraction close to that of said thin layer and (3) has a thickness ratio to said thin layer of higher than 4:
- 1.

12. A luminescent solar collector and concentrator comprising a radiation collection medium for receiving incident solar radiation, said medium containing at least one luminescent species capable of emitting luminescent radiation upon excitation with incident solar radiation, said medium being totally internally reflective of a major portion of said emitted luminescent radiation, a relatively small surface area of said medium being optically coupled to a photovoltaic solar cell responsive to said emitted luminescent radiation, wherein said radiation collection medium is a composite structure comprising a thin layer of a thermoset polysiloxane of a trifunctional silane containing dispersed therein at least one luminescent species, said layer being optically coupled to a thick radiation conducting layer of at least 0.5 mm thickness, which thick layer (1) is totally internally reflective of a major portion of said emitted luminescent radiation, (2) has an index of refraction close to that of said thin layer and (3) has a thickness ratio to said thin layer of higher than 4:
- 1.

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Current Assignee
Owens-Illinois Glass Container, Inc. (O-I Glass, Inc.)
Original Assignee
Owens-Illinois Incorporated (O-I Glass, Inc.)
Inventors
Boling, Norman L., Rapp, Charles F.
Primary Examiner(s)
Weisstuch, Aaron

Application Number

US05/902,520
Time in Patent Office

552 Days
Field of Search

136/89 PC, 136/89 HY, 136/89 CC, 126/270, 126/271, 350/96.10, 250/227, 250/361 R, 250/367, 250/458, 250/483, 250/486, 250/488, 428/913, 252/301.35, 252/301.36
US Class Current

136/259
CPC Class Codes

H01L 31/055 where light is absorbed and...

Y02E 10/52 PV systems with concentrators

Solar collector structures containing thin film polysiloxane, and solar cells

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

57 Citations

12 Claims

Specification

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Solar collector structures containing thin film polysiloxane, and solar cells

First Claim

1 Assignment

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0 Petitions

Subscription Required

Accused Products

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Abstract

57 Citations

12 Claims

Specification

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Solutions

Use Cases

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