Electronic and optoelectronic devices with quantum dot films
First Claim
1. A device, comprising:
- a film comprising a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused, and wherein the film is substantially free of ligands attached to the outer surface of the fused nanocrystals; and
first and second electrodes in spaced relation and in electrical communication with first and second portions of the network of fused nanocrystals.
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0 Petitions
Accused Products
Abstract
Optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit an array of conductive regions; and an optically sensitive material over at least a portion of the integrated circuit and in electrical communication with at least one conductive region of the array of conductive regions. Under another aspect, a method of forming a nanocrystalline film includes fabricating a plurality of nanocrystals having a plurality of first ligands attached to their outer surfaces; exchanging the first ligands for second ligands of different chemical composition than the first ligands; forming a film of the ligand-exchanged nanocrystals; removing the second ligands; and fusing the cores of adjacent nanocrystals in the film to form an electrical network of fused nanocrystals. Under another aspect, a film includes a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused.
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Citations
14 Claims
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1. A device, comprising:
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a film comprising a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused, and wherein the film is substantially free of ligands attached to the outer surface of the fused nanocrystals; and first and second electrodes in spaced relation and in electrical communication with first and second portions of the network of fused nanocrystals. - View Dependent Claims (2)
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3. A device, comprising:
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a film comprising a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused; and first and second electrodes in spaced relation and in electrical communication with first and second portions of the network of fused nanocrystals, wherein the electrical network of fused nanocrystals provides a plurality of relatively low-resistance electrical paths from the first electrode to the second electrode. - View Dependent Claims (4, 5)
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6. A device, comprising:
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a film comprising a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused; and first and second electrodes in spaced relation and in electrical communication with first and second portions of the network of fused nanocrystals, wherein the electrical network of fused nanocrystals provides a plurality of electrical paths from the first electrode to the second electrode and wherein at least some of those electrical paths undergo a change in electrical resistance in response to incident light.
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7. A device, comprising:
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a film comprising a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused, and wherein the film has a carrier mobility of between about 0.001 cm2/Vs and about 10 cm2/Vs; and first and second electrodes in spaced relation and in electrical communication with first and second portions of the network of fused nanocrystals.
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8. A device, comprising:
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a film comprising a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused, and wherein the film has a carrier mobility of between about 0.01 cm2/Vs and about 0.1 cm2/Vs; and first and second electrodes in spaced relation and in electrical communication with first and second portions of the network of fused nanocrystals.
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9. A device, comprising:
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a film comprising a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused, and wherein the fused nanocrystals comprise a plurality of a first type of fused nanocrystals and a plurality of a second type of fused nanocrystals; and first and second electrodes in spaced relation and in electrical communication with first and second portions of the network of fused nanocrystals. - View Dependent Claims (10)
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11. A device, comprising:
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a film comprising a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused, and wherein each fused nanocrystal is of a size and composition to absorb at least one of infrared radiation, x-ray radiation, ultraviolet radiation, and visible radiation; and first and second electrodes in spaced relation and in electrical communication with first and second portions of the network of fused nanocrystals.
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12. A device, comprising:
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a film comprising a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused; and first and second electrodes in spaced relation and in electrical communication with first and second portions of the network of fused nanocrystals, wherein the first and second electrodes are disposed on a substrate with the film therebetween and are substantially parallel to one another.
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13. A device, comprising:
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a film comprising a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused; and first and second electrodes in spaced relation and in electrical communication with first and second portions of the network of fused nanocrystals, wherein the first and second electrodes are disposed on a substrate with the film therebetween and are interdigitated.
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14. A device, comprising:
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a film comprising a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused; and first and second electrodes in spaced relation and in electrical communication with first and second portions of the network of fused nanocrystals, wherein the first and second electrodes are spaced by about 0.2 μ
m to about 2 μ
m from each other.
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Specification