ENERGY HARVESTING DEVICES, SYSTEMS, AND RELATED METHODS

US 20150303335A1
Filed: 08/31/2012
Published: 10/22/2015
Est. Priority Date: 11/13/2007
Status: Active Grant

First Claim

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1. An energy harvesting device, comprising:

a substrate; and

a plurality of resonance elements comprising a conductive material coupled with the substrate, wherein;

each resonance element of the plurality of resonance elements is configured to collect radiant energy in at least visible and infrared light spectra;

each resonance element of the plurality of resonance elements is configured to reradiate energy having a wavelength within the range of about 0.8 μ

m to about 0.9 μ

m; and

the plurality of resonance elements is arranged in groups of two or more resonance elements.

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Abstract

Energy harvesting devices include a substrate and a plurality of resonance elements coupled to the substrate. Each resonance element is configured to collect energy in the visible and infrared light spectra and to reradiate energy having a wavelength in the range of about 0.8 μm to about 0.9 μm. The resonance elements are arranged in groups of two or more resonance elements. Systems for harvesting electromagnetic radiation include a substrate, a plurality of resonance elements including a conductive material carried by the substrate, and a photovoltaic material coupled to the substrate and to at least one resonance element. The resonance elements are arranged in groups, such as in a dipole, a tripole, or a bowtie configuration. Methods for forming an energy harvesting device include forming groups of two or more discrete resonance elements in a substrate and coupling a photovoltaic material to the groups of discrete resonance elements.

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21 Claims

1. An energy harvesting device, comprising:
- a substrate; and
  
  a plurality of resonance elements comprising a conductive material coupled with the substrate, wherein;
  
  each resonance element of the plurality of resonance elements is configured to collect radiant energy in at least visible and infrared light spectra;
  
  each resonance element of the plurality of resonance elements is configured to reradiate energy having a wavelength within the range of about 0.8 μ
  
  m to about 0.9 μ
  
  m; and
  
  the plurality of resonance elements is arranged in groups of two or more resonance elements.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The energy harvesting device of claim 1, wherein each resonance element of the plurality of resonance elements has a shape selected from the group consisting of an elliptical shape and a triangular shape.
  - 3. The energy harvesting device of claim 2, wherein each group of two or more resonance elements includes at least one of a dipole, a tripole, and a bowtie configuration.
  - 4. The energy harvesting device of claim 2, wherein each resonance element of the plurality of resonance elements has an elliptical shape with a minor axis of approximately 30 nm, a major axis in a range of approximately 40 nm to approximately 80 nm, and a thickness in a range of approximately 30 nm to approximately 100 nm.
  - 5. The energy harvesting device of claim 2, wherein:
    - each group of two or more resonance elements comprises a pair of two resonance elements in a dipole configuration;
      
      a feed gap distance between the resonance elements of each pair of two resonance elements is in a range of approximately 20 nm to approximately 60 nm;
      
      a longitudinal distance between adjacent pairs of two resonance elements is in a range of approximately 30 nm to approximately 70 nm; and
      
      a lateral distance between adjacent pairs of two resonance elements is in a range of approximately 20 nm to approximately 40 nm.
  - 6. The energy harvesting device of claim 2, wherein:
    - each group of two or more resonance elements comprises three resonance elements in a tripole configuration; and
      
      each resonance element in the group is oriented at an angle of approximately 120 degrees from adjacent resonance elements in the group.
  - 7. The energy harvesting device of claim 1, wherein the substrate comprises at least one of silicon, germanium, gallium arsenide, polyethylene, polypropylene, acrylic, fluoropolymer, polystyrene, poly methylmethacrylate, polyethylene terephthalate, polyimide, and polyolefin.
  - 8. The energy harvesting device of claim 1, further comprising a photovoltaic material operably coupled to the plurality of resonance elements.

9. A system for harvesting electromagnetic radiation, comprising:
- a substrate comprising at least one of a dielectric material and a semiconductor material;
  
  a plurality of resonance elements comprising a conductive material carried by the substrate, the plurality of resonance elements arranged in groups having at least one of a dipole, a tripole, and a bowtie configuration; and
  
  a photovoltaic material coupled to the substrate and capacitively coupled to at least one resonance element of the plurality of resonance elements, wherein each resonance element of the plurality of resonance elements is configured to absorb incident electromagnetic radiation and reradiate at least some of the absorbed electromagnetic radiation at a bandgap energy of the photovoltaic material.
- View Dependent Claims (10, 11, 12, 13, 14)
- - 10. The system of claim 9, wherein the photovoltaic material is bonded to the substrate.
  - 11. The system of claim 9, wherein the plurality of resonance elements is positioned in the substrate such that the incident electromagnetic radiation will pass through at least a portion of the substrate before arriving at the plurality of resonance elements.
  - 12. The system of claim 9, wherein the photovoltaic material is embedded in the substrate at feed gaps of the groups of the resonance elements.
  - 13. The system of claim 9, wherein the substrate comprises a first substrate and the plurality of resonance elements comprises a first portion of resonance elements, and further comprising:
    - a second substrate comprising a dielectric material coupled to the photovoltaic material on an opposite side thereof from the first substrate; and
      
      a second portion of resonance elements in the second substrate, the second portion of resonance elements configured to absorb incident electromagnetic radiation having a different wavelength than at least one wavelength of the incident electromagnetic radiation that the first portion of resonance elements is configured to absorb.
  - 14. The system of claim 13, wherein the first portion of resonance elements is configured to absorb incident electromagnetic radiation from the sun and the second portion of resonance elements is configured to absorb thermal incident electromagnetic radiation.

15. A method for forming an energy harvesting device, the method comprising:
- forming groups of two or more discrete resonance elements in a substrate such that each group of discrete resonance elements is configured to collect electromagnetic radiation having a frequency between approximately 0.1 THz and approximately 1,000 THz, wherein at least some of the groups of two or more discrete resonance elements is configured to collect electromagnetic radiation having a frequency between approximately 0.1 THz and approximately 30 THz; and
  
  coupling a photovoltaic material to the groups of two or more discrete resonance elements.
- View Dependent Claims (16, 17, 18, 19, 20, 21)
- - 16. The method of claim 15, wherein coupling a photovoltaic material to the groups of two or more discrete resonance elements comprises capacitively coupling the photovoltaic material to the groups of two or more discrete resonance elements.
  - 17. The method of claim 15, wherein coupling a photovoltaic material to the groups of two or more discrete resonance elements comprises embedding the photovoltaic material in the substrate at feed gaps of each group of two or more discrete resonance elements.
  - 18. The method of claim 15, wherein forming groups of two or more discrete resonance elements in a substrate comprises foiniing the groups in at least one of a dipole, a tripole, and a bowtie configuration.
  - 19. The method of claim 15, wherein forming groups of two or more discrete resonance elements further comprises forming individual discrete resonance elements to have an elliptical or a triangular shape.
  - 20. The method of claim 15, further comprising forming the substrate out of at least one of polyethylene, polypropylene, acrylic, fluoropolymer, polystyrene, poly methylmethacrylate, polyethylene terephthalate, polyimide, and polyolefin.
  - 21. The method of claim 15, wherein coupling the photovoltaic material to the groups of discrete resonance elements comprises at least one of overlaying, laminating, and bonding the photovoltaic material to the substrate.

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Current Assignee
Battelle Energy Alliance LLC (Battelle Memorial Institute)
Original Assignee
Battelle Energy Alliance LLC (Battelle Memorial Institute)
Inventors
Kotter, Dale K.

Granted Patent

US 9,472,699 B2
Time in Patent Office

Days
Field of Search
US Class Current

1/1
CPC Class Codes

G02B 5/281   designed for the infrared l...

H01L 31/02322   comprising luminescent memb...

H01L 31/042   PV modules or arrays of sin...

H01Q 1/38   formed by a conductive laye...

H01Q 21/061   Two dimensional planar arrays

H01Q 21/062   using dipole aerials; H01Q2...

H10N 10/00   Thermoelectric devices comp...

Y02E 10/50   Photovoltaic [PV] energy

ENERGY HARVESTING DEVICES, SYSTEMS, AND RELATED METHODS

First Claim

2 Assignments

0 Petitions

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Abstract

26 Citations

21 Claims

Specification

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ENERGY HARVESTING DEVICES, SYSTEMS, AND RELATED METHODS

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

26 Citations

21 Claims

Specification

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Solutions

Use Cases

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