Tritiated light emitting polymer electrical energy source

US 5,124,610 A
Filed: 03/04/1991
Issued: 06/23/1992
Est. Priority Date: 03/03/1989
Status: Expired due to Term

First Claim

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1. An electrical energy source, comprising:

a light emitting polymer material having at least one light emitting surface emitting light energy in a specified frequency bandwidth, the light emitting polymer material comprising a mixture of a polymer labelled with a tritium and an organic compound which emits the light energy when subjected to radiation generated by the tritium, where the organic compound is at least partly bonded to the polymer and the mixture is translucent at the specified frequency bandwidth of the light energy; and

a photovoltaic cell having a light collecting surface and a pair of electrical contacts, the light collecting surface of the photovoltaic cell being substantially intimately optically coupled to the light emitting surface of the light emitting polymer material, such that an open-circuit voltage is generated between the pair of electrical contacts as a results of the photovoltaic cell'"'"'s absorption of the light energy emitted from the light emitting polymer material.

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Abstract

An electrical energy source is created by the combination of a light emitting polymer material having at least one light emitting surface emitting light energy of a specified frequency bandwidth and a photovoltaic cell having a light collecting surface and a pair of electrical contacts. The light collecting surface of the photovoltaic cell is optically coupled with the light emitting surface of the light emitting polymer material. An open-circuit voltage is generated between the pair of electrical contacts as a result of the absorption of emitted light energy from the light emitting polymer material by the photovoltaic cell. The light emitting polymer comprises a mixture of a polymer labelled with a tritium and an organic compound which emits light energy when subjected to radiation generated by the tritium. The organic compound is at least partly bonded to the polymer and the mixture is translucent at the specified frequency bandwidth of the light energy. Maximum absorption of the emitted light energy is achieved by the intimate optical contact between the light emitting surface and the light collecting surface, by matching the maximum absorption frequency bandwidth of the photovoltaic cell with the specified frequency bandwidth of the emitted light energy from the light emitting polymer material, and by the structural arrangement of the light emitting polymer material itself.

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20 Claims

1. An electrical energy source, comprising:
- a light emitting polymer material having at least one light emitting surface emitting light energy in a specified frequency bandwidth, the light emitting polymer material comprising a mixture of a polymer labelled with a tritium and an organic compound which emits the light energy when subjected to radiation generated by the tritium, where the organic compound is at least partly bonded to the polymer and the mixture is translucent at the specified frequency bandwidth of the light energy; and
  
  a photovoltaic cell having a light collecting surface and a pair of electrical contacts, the light collecting surface of the photovoltaic cell being substantially intimately optically coupled to the light emitting surface of the light emitting polymer material, such that an open-circuit voltage is generated between the pair of electrical contacts as a results of the photovoltaic cell'"'"'s absorption of the light energy emitted from the light emitting polymer material.
- View Dependent Claims (2, 3, 4, 5, 11, 12, 13, 14)
- - 2. The electrical energy source of claim 1 wherein organic compound is comprised of a primary organic phosphor for absorbing a beta particle emitted by the polymer labelled with tritium and emitting photons at a first frequency bandwidth and a secondary organic phosphor for shifting the frequency bandwidth of the photons emitted by the primary organic phosphor to establish the specified frequency bandwidth for the light energy emitted by the light emitting polymer material.
  - 3. The electrical energy source of claim 2 wherein the primary organic phosphor consists of a phosphor from the group PPO, PBD, and POPOP.
  - 4. The electrical energy source of claim 1 wherein the photovoltaic cell has a maximum absorption value at a specified frequency bandwidth that is matched to the specified frequency bandwidth of the emitted light energy of the light emitting polymer material.
  - 5. The electrical energy source of claim 1 wherein the specified frequency bandwidth of the emitted light energy of the light emitting polymer is substantially monochromatic.
  - 11. The electrical energy source of claim 1 wherein the polymer is a vinyl aromatic hydrocarbon.
  - 12. The electrical energy source of claim 1 wherein the polymer is comprised of a combination of tritium-labeled monomers and unlabled monomers which are subjected to polymerization along with the organic compound.
  - 13. The electrical energy source of claim 12 wherein the tritium labeled monomers and the unlabled monomers are deuterated prior to polymerization.
  - 14. The electrical energy source of claim 1 wherein the polymer is labelled to an activity of 1-100 Ci/g.

6. An active electrical element, comprising:
- a light emitting polymer material having at least one light emitting suface emitting light energy in a specified frequency bandwidth, the light emitting polymer material comprising comprising a mixture of a polymer labelled with a tritium and a first organic compound which emits the light energy when subjected to radiation generated by the tritium wherein the organic compound is at least partly bonded to the polymer and the mixture is translucent at the specified frequency bandwidth of the light energy;
  
  a photovoltaic cell having a light collecting surface and a pair of electrical contacts, the light collecting surface of the photovoltaic cell being optically coupled to the light emitting surface of the light emitting polymer material; and
  
  optical control means intimately interposed between the light emitting surface of the light emitting polymer material and the light collecting surface of the photovoltaic cell for controlling the amount of light energy that may be absorbed by the photovoltaic cell,such that an open-circuit voltage is generated between the pair of electrical contacts as a result of the photovoltaic cell'"'"'s absorption of the light energy emitted from the light emitting polymer material when the optical control means allows at least a minimum amount of the emitted light energy to be absorbed by the photovoltaic cell.
- View Dependent Claims (7, 8, 9, 10, 15, 16, 17, 18, 19, 20)
- - 7. The electrical energy source of claim 6 wherein the optical control means is a liquid crystal display material.
  - 8. The electrical energy source of claim 6 wherein the optical control means is a lead lantium zirconium titinate material.
  - 9. The electrical energy source of claim 6 wherein the photovoltaic cell has a maximum absorption value at a specified frequency bandwidth that is matched to the specified frequency bandwidth of the emitted light energy of the light emitting polymer material.
  - 10. The electrical energy source of claim 9 wherein the specified fequency bandwidth of the emitted light energy of the light emitting polymer is substantially monochromatic.
  - 15. The active electrical element of claim 6 wherein the organic compound is comprised of a primary organic phosphor for obsorbing a beta particle emitted by the polymer labelled with tritium and emitting photons at a first frequency bandwidth and a secondary organic phosphor for shifting the frequency bandwidth of the photons emitted by the primary organic phosphor to establish the specified frequency bandwidth for the light energy emitted by the light emitting polymer material.
  - 16. The active electrical element of claim 15 wherein the primary organic phosphor consists of a phosphor from the group PPO, PBD and POPOP.
  - 17. The active eletrical element of claim 6 wherein the polymer is a vinyl aromatic hydrocarbon.
  - 18. The active electrical element of claim 6 wherein the polymer is comprised of a combination of tritium-labeled monomers and unlabeled monomers which are subjected to polymerization along with the organic compound.
  - 19. The active electrical element of claim 18 wherein the tritium labeled monomers and the unlabeled monomers are deuterated prior to polymerization.
  - 20. The active electrical element of claim 6 wherein the polymer is labelled to an activity of 1-100 Ci/g.

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Current Assignee
E F Johnson Company (JVC Kenwood Corporation)
Original Assignee
E F Johnson Company (JVC Kenwood Corporation)
Inventors
Conley, Jerry J., Mortensen, Gary B.
Primary Examiner(s)
Moskowitz, Nelson

Application Number

US07/664,203
Time in Patent Office

477 Days
Field of Search

310/302, 310/303, 136/249, 136/253, 357/30, 313/504
US Class Current

310/303
CPC Class Codes

G21H 1/12 Cells using conversion of t...

H01L 31/12 structurally associated wit...

Tritiated light emitting polymer electrical energy source

First Claim

4 Assignments

0 Petitions

Accused Products

Abstract

99 Citations

20 Claims

Specification

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Tritiated light emitting polymer electrical energy source

First Claim

4 Assignments

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0 Petitions

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Accused Products

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Abstract

99 Citations

20 Claims

Specification

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Solutions

Use Cases

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