IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0659352
(2010-03-04)
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등록번호 |
US-8604332
(2013-12-10)
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발명자
/ 주소 |
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출원인 / 주소 |
- Guardian Industries Corp.
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
9 인용 특허 :
117 |
초록
▼
Certain example embodiments of this invention relate to large-area transparent conductive coatings (TCCs) including carbon nanotubes (CNTs) and nanowire composites, and methods of making the same. The σdc/σopt ratio of such thin films may be improved via stable chemical doping and/or alloying of CNT
Certain example embodiments of this invention relate to large-area transparent conductive coatings (TCCs) including carbon nanotubes (CNTs) and nanowire composites, and methods of making the same. The σdc/σopt ratio of such thin films may be improved via stable chemical doping and/or alloying of CNT-based films. The doping and/or alloying may be implemented in a large area coating system, e.g., on glass and/or other substrates. In certain example embodiments, a CNT film may be deposited and then doped via chemical functionalization and/or alloyed with silver and/or palladium. Both p-type and n-type dopants may be used in different embodiments of this invention. In certain example embodiments, silver and/or other nanowires may be provided, e.g., to further decrease sheet resistance. Certain example embodiments may provide coatings that approach, meet, or exceed 90% visible transmission and 90 ohms/square target metrics.
대표청구항
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1. A solar cell, comprising: a glass substrate;a first CNT-based conductive layer located, directly or indirectly, on the glass substrate;a first semiconductor layer in contact with the first CNT-based conductive layer;at least one absorbing layer located, directly or indirectly, on the first semico
1. A solar cell, comprising: a glass substrate;a first CNT-based conductive layer located, directly or indirectly, on the glass substrate;a first semiconductor layer in contact with the first CNT-based conductive layer;at least one absorbing layer located, directly or indirectly, on the first semiconductor layer;a second semiconductor layer located, directly or indirectly, on the at least one absorbing layer;a second CNT-based conductive layer in contact with the second semiconductor layer; anda back contact located, directly or indirectly, on the second CNT-based conductive layer,wherein at least one of the first and second CNT-based conductive layers is alloyed and/or otherwise metalized with: palladium, silver, or both palladium and silver. 2. The solar cell of claim 1, further comprising an antireflective coating provided on a surface of the substrate opposite the first CNT-based conductive layer. 3. The solar cell of claim 1, wherein the first semiconductor layer is an n-type semiconductor layer and the first CNT-based layer is doped with n-type dopants. 4. The solar cell of claim 3, wherein the second semiconductor layer is a p-type semiconductor layer and the second CNT-based layer is doped with p-type dopants. 5. The solar cell of claim 4, further comprising a layer comprising zinc-doped tin oxide interposed between the glass substrate and the first CNT-based layer. 6. The solar cell of claim 1, wherein the first and/or second semiconductor layers comprise polymeric material(s). 7. A photovoltaic device, comprising: a substrate;at least one photovoltaic thin-film layer;first and second electrodes; andfirst and second transparent, conductive CNT-based layers;wherein the first and second CNT-based layers are respectively doped with n- and p-type dopants, andwherein one or both of the first and second CNT-based layers comprise(s) a solution-deposited film including meshes of silver nanowires located substantially uniformly across a major surface of the substrate, the meshes including porous areas, at least some of the porous areas being at least partially filled with CNT bundles. 8. The solar cell of claim 1, further comprising a layer comprising zinc-doped tin oxide interposed between the glass substrate and the first CNT-based layer, the layer comprising zinc-doped tin oxide being textured to increase efficiency of the solar cell compared to a situation where the layer comprising zinc-doped tin oxide is absent, and wherein the first CNT-based layer generally conforms to the layer comprising zinc-doped tin oxide. 9. The solar cell of claim 1, wherein at least one of the first and second CNT-based conductive layers comprises silver nanowires and is doped with palladium, and has an average sheet resistance of 7-13 ohms/square. 10. The solar cell of claim 1, wherein at least one of the first and second CNT-based conductive layers comprises silver nanowires and/or is doped with palladium. 11. The solar cell of claim 1, wherein at least one of the first and second CNT-based conductive layers comprises a solution-deposited composite film with silver nanowires and carbon nanotubes. 12. The solar cell of claim 11, wherein: the silver nanowires form random, substantially non-bundled meshes throughout the film, the meshes being electrically structured to provide long-distance charge transport paths and remove resistive carbon nanotube junctions that otherwise would exist within current paths through the film, andcarbon nanotube bundles are shaped and arranged to provide charge collection sites in porous areas of the meshes and transport charge to correspondingly located meshes. 13. The solar cell of claim 12, wherein the carbon nanotube bundles have resistances of approximately 5-9 kΩ/μm and wherein remaining junctions have resistances of approximately 20-40 kΩ/μm. 14. The solar cell of claim 1, wherein the back contact is not intentionally textured. 15. The device of claim 7, wherein one or both of the first and second CNT-based layers comprise(s) Pd-based dopants. 16. The device of claim 7, further comprising a layer comprising zinc-doped tin oxide interposed between the glass substrate and the first CNT-based layer, the first CNT-based layer generally conforming to the layer comprising zinc-doped tin oxide. 17. The device of claim 7, wherein one or both of the first and second CNT-based layers comprise(s) a solution-deposited film including Pd dopants and meshes of silver nanowires located substantially uniformly across a major surface of the substrate, the meshes including porous areas, at least some of the porous areas being at least partially filled with CNT bundles. 18. The device of claim 17, wherein each solution-deposited film has an RMS roughness of 10 nm. 19. The device of claim 17, wherein each solution-deposited film has a sheet resistance of 7-13 ohms/square.
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