Nanocomposite materials with engineered properties
First Claim
Patent Images
1. A nanocomposite material comprising:
- a) a matrix material; and
b) a plurality of quantum dots dispersed in said matrix material, said nanocomposite material having a nonlinear index of refraction γ
that is at least 10−
9 cm2/W when irradiated with light having a wavelength λ
between approximately 3×
10 −
5 cm and 2×
10−
4 cm.
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Abstract
The invention relates to a nanocomposite material. The nanocomposite material comprises a matrix material and a plurality of quantum dots dispersed in the matrix material. The nanocomposite material has a nonlinear index of refraction γ that is at least 10−9 cm2/W when irradiated with light having a wavelength λ between approximately 3×10−5 cm and 2×10−4 cm.
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Citations
42 Claims
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1. A nanocomposite material comprising:
-
a) a matrix material; and
b) a plurality of quantum dots dispersed in said matrix material, said nanocomposite material having a nonlinear index of refraction γ
that is at least 10−
9 cm2/W when irradiated with light having a wavelength λ
between approximately 3×
10 −
5 cm and 2×
10−
4 cm.- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32)
a core including a semiconductor material Y selected from the group consisting of Si and Ge; and
a shell surrounding said core, said s hell being substantially defect free.
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8. The nanocomposite material of claim 7, wherein said shell includes an oxide YOn with n being between approximately 0 and 2.
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9. The nanocomposite material of claim 1, wherein a quantum dot of said plurality of quantum dots includes:
-
a core including a semiconductor material selected from the group consisting of Si and Ge; and
a ligand layer surrounding said core, said ligand layer including a plurality of surface ligands.
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10. The nanocomposite material of claim 9, wherein a surface ligand of said plurality of surface ligands includes a first portion and a second portion, said first portion being coupled to said core, said second portion being chemically compatible with said matrix material to facilitate dispersing said quantum dot in said matrix material.
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11. The nanocomposite material of claim 1, wherein a quantum dot of said plurality of quantum dots includes:
-
a core including a semiconductor material; and
a ligand layer surrounding said core, said ligand layer including a plurality of surface ligands, a surface ligand of said plurality of surface ligands including a portion that is chemically compatible with said matrix material to facilitate dispersing said quantum dot in said matrix material.
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12. The nanocomposite material of claim 11, wherein said semiconductor material is selected from the group consisting of Group IV semiconductor materials, Group II-VI semiconductor materials, Group III-V semiconductor materials, Group IV-VI semiconductor materials, mixtures thereof, and alloys thereof.
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13. The nanocomposite material of claim 11, wherein said semiconductor material is a first semiconductor material, said quantum dot further includes a shell positioned between said core and said ligand layer and surrounding said core, said shell including a second semiconductor material, said first semiconductor material and said second semiconductor material being independently selected from the group consisting of Group IV semiconductor materials, Group II-VI semiconductor materials, Group III-V semiconductor materials, Group IV-VI semiconductor materials, mixtures thereof, and alloys thereof.
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14. The nanocomposite material of claim 11, wherein said plurality of surface ligands are coupled to said core to provide a surface coverage between approximately 50 percent and 100 percent.
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15. The nanocomposite material of claim 11, wherein said plurality of surface ligands are coupled to said core to provide a surface coverage between approximately 80 percent and 100 percent.
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16. The nanocomposite material of claim 1, further comprising a molecule coupling a first quantum dot and a second quantum dot of said plurality of quantum dots.
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17. The nanocomposite material of claim 16, wherein said molecule provides charge transport between said first quantum dot and said second quantum dot.
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18. The nanocomposite material of claim 1, further comprising a plurality of molecules coupling at least three quantum dots of said plurality of quantum dots to form one of a linear array, a two-dimensional array, and a three-dimensional array.
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19. The nanocomposite material of claim 1, wherein said plurality of quantum dots has a substantially monodisperse size distribution.
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20. The nanocomposite material of claim 1, wherein said plurality of quantum dots has a substantially monodisperse shape distribution.
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21. The nanocomposite material of claim 1, wherein γ
- is at least 10−
8 cm2/W.
- is at least 10−
-
22. The nanocomposite material of claim 1, wherein γ
- is at least 10−
8 cm2/W when λ
is between approximately 1.25×
10−
4 cm and 1.35×
10−
4 cm.
- is at least 10−
-
23. The nanocomposite material of claim 1, wherein γ
- is at least 10−
8 cm2/W when λ
is between approximately 1.5×
10−
4 cm and 1.6×
10−
4 cm.
- is at least 10−
-
24. The nanocomposite material of claim 1, wherein each quantum dot of said plurality of quantum dots includes a core, a shell surrounding said core, and a ligand layer surrounding said shell, and γ
- is established by selecting at least one of a chemical composition of said core, a chemical composition of said shell, a peak size of said plurality of quantum dots, a thickness of said shell, a chemical composition of said ligand layer, a chemical composition of said matrix material, and a concentration of said plurality of quantum dots in said matrix material.
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25. The nanocomposite material of claim 1, wherein said nanocomposite material has a linear index of refraction between approximately 1.3 and 5.0.
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26. The nanocomposite material of claim 25, wherein each quantum dot of said plurality of quantum dots includes a core, a shell surrounding said core, and a ligand layer surrounding said shell, and said linear index of refraction is established by selecting at least one of a chemical composition of said core, a chemical composition of said shell, a peak size of said plurality of quantum dots, a thickness of said shell, a chemical composition of said ligand layer, a chemical composition of said matrix material, and a concentration of said plurality of quantum dots in said matrix material.
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27. The nanocomposite material of claim 1, wherein said nanocomposite material has a figure-of-merit that is at least 1, said figure-of-merit being defined as 2γ
- /β
λ
, where β
is a two-photon absorption coefficient of said nanocomposite material expressed in cm/W.
- /β
-
28. The nanocomposite material of claim 27, wherein said figure-of-merit is at least 1.8.
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29. The nanocomposite material of claim 1, wherein each quantum dot of said plurality of quantum dots includes a core and a shell surrounding said core, and said nanocomposite material has single-photon and multi-photon absorption characteristics that are established by selecting at least one of a chemical composition of said core, a chemical composition of said shell, a peak size of said plurality of quantum dots, and a thickness of said shell.
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30. The nanocomposite material of claim 1, wherein each quantum dot of said plurality of quantum dots includes a core and a ligand layer surrounding said core, and said nanocomposite material has chemical characteristics that are established by selecting at least one of a chemical composition of said ligand layer and a chemical composition of said matrix material.
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31. The nanocomposite material of claim 1, wherein each quantum dot of said plurality of quantum dots includes a core and a ligand layer surrounding said core, and said nanocomposite material has mechanical characteristics that are established by selecting at least one of a chemical composition of said ligand layer and a chemical composition of said matrix material.
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32. The nanocomposite material of claim 1, wherein said nanocomposite material has at least two different characteristics that are independently established, said at least two different characteristics being selected from the group consisting of γ
- , linear index of refraction, single-photon absorption characteristics, multi-photon absorption characteristics, chemical characteristics, and mechanical characteristics.
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33. A nanocomposite material comprising:
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a plurality of quantum dots, said plurality of quantum dots being arranged in one of a two-dimensional array and a three-dimensional array, said plurality of quantum dots including a semiconductor material Y selected from the group consisting of Si and Ge, at least one quantum dot of said plurality of quantum dots exhibiting photoluminescence with a quantum efficiency that is greater than 10 percent. - View Dependent Claims (34, 35, 36, 37, 38, 39, 40, 41, 42)
a core including Y; and
a shell surrounding said core, said shell including an oxide YOn with n being between approximately 0 and 2.
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39. The nanocomposite material of claim 33, wherein a quantum dot of said plurality of quantum dots includes:
-
a core including Y; and
a ligand layer surrounding said core, said ligand layer including a plurality of surface ligands.
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40. The nanocomposite material of claim 33, wherein at least one quantum dot of said plurality of quantum dots exhibits photoluminescence with a quantum efficiency that is at least 50 percent.
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41. The nanocomposite material of claim 33, wherein said nanocomposite material has a nonlinear index of refraction γ
- that is at least 10−
9 cm2/W when irradiated with light having a wavelength λ
between approximately 3×
10−
5 cm and 2×
10 −
4 cm.
- that is at least 10−
-
42. The nanocomposite material of claim 41, wherein said nanocomposite material has a figure-of-merit that is at least 1, said figure-of-merit being defined as 2γ
- /β
λ
, where β
is a two-photon absorption coefficient of said nanocomposite material expressed in cm/W.
- /β
Specification