Blue emitting semiconductor nanocrystals and compositions and devices including same
US-2015184074-A1 · Jul 2, 2015 · US
Semiconductor nanocrystals, methods for making same, compositions, and products
US10553750B2 · US · B2
| Field | Value |
|---|---|
| Publication number | US-10553750-B2 |
| Application number | US-201916287830-A |
| Country | US |
| Kind code | B2 |
| Filing date | Feb 27, 2019 |
| Priority date | Feb 5, 2012 |
| Publication date | Feb 4, 2020 |
| Grant date | Feb 4, 2020 |
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Abstract
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A semiconductor nanocrystal characterized by having a solid state photoluminescence external quantum efficiency at a temperature of 90° C. or above that is at least 95% of the solid state photoluminescence external quantum efficiency of the semiconductor nanocrystal at 25° C. is disclosed. A semiconductor nanocrystal having a multiple LO phonon assisted charge thermal escape activation energy of at least 0.5 eV is also disclosed. A semiconductor nanocrystal capable of emitting light with a maximum peak emission at a wavelength in a range from 590 nm to 650 nm characterized by an absorption spectrum, wherein the absorption ratio of OD at 325 nm to OD at 450 nm is greater than 5.5. A semiconductor nanocrystal capable of emitting light with a maximum peak emission at a wavelength in a range from 545 nm to 590 nm characterized by an absorption spectrum, wherein the absorption ratio of OD at 325 nm to OD at 450 nm is greater than 7. A semiconductor nanocrystal capable of emitting light with a maximum peak emission at a wavelength in a range from 495 nm to 545 nm characterized by an absorption spectrum, wherein the absorption ratio of OD at 325 nm to OD at 450 nm is greater than 10. A composition comprising a plurality of semiconductor nanocrystals wherein the solid state photoluminescence efficiency of the composition at a temperature of 90° C. or above is at least 95% of the solid state photoluminescence efficiency of the composition 25° C. is further disclosed. A method for preparing semiconductor nanocrystals comprises introducing one or more first shell chalcogenide precursors and one or more first shell metal precursors to a reaction mixture including semiconductor nanocrystal cores, wherein the first shell chalcogenide precursors are added in an amount greater than the first shell metal precursors by a factor of at least about 2 molar equivalents and reacting the first shell precursors at a first reaction temperature of at least 300° C. to form a first shell on the semiconductor nanocrystal cores. Populations, compositions, components and other products including semiconductor nanocrystals of the invention are disclosed. Populations, compositions, components and other products including semiconductor nanocrystals made in accordance with any method of the invention is also disclosed.
First claim
Opening claim text (preview).
The invention claimed is: 1. A semiconductor nanocrystal, which comprises: a core comprising a first semiconductor material and a first shell surrounding the core, wherein the first shell comprises a second semiconductor material and is disposed directly on the core, wherein the nanocrystal further includes a second shell surrounding the outer surface thereof and the second shell comprises a third semiconductor material, where the third semiconductor material comprises a ternary mixture; and wherein the semiconductor nanocrystal further includes a third shell, wherein the third shell has a bandgap that is the same as that of the first shell and the second shell has a bandgap that is less than that of the first shell. 2. A semiconductor nanocrystal in accordance with claim 1 wherein the first shell has a thickness greater than or equal to the thickness of 1 monolayer of the second semiconductor material. 3. A semiconductor nanocrystal in accordance with claim 2 wherein the first shell has a thickness up to the thickness of about 10 monolayers of the second semiconductor material. 4. A semiconductor nanocrystal in accordance with claim 1 wherein the second shell has a thickness greater than or equal to the thickness of 3 monolayers of the third semiconductor material. 5. A semiconductor nanocrystal in accordance with claim 4 wherein the second shell has a thickness up to the thickness of about 20 monolayers of the third semiconductor material. 6. A semiconductor nanocrystal in accordance with claim 1 wherein the first shell comprises zinc sulfide, and the second shell comprises one or more metals wherein the one or metals comprises from 0 to less than 100% cadmium. 7. A semiconductor nanocrystal in accordance with claim 1 wherein the core comprises CdSe, the first shell comprises ZnS at a thickness of about 3-4 monolayers of ZnS, and the second shell comprises Cd 1-x Zn x S wherein 0<x<1 at a thickness of about 9-10 monolayers of Cd 1-x Zn x S. 8. A semiconductor nanocrystal in accordance with claim 1 wherein the first shell comprises a thickness of about 3-4 monolayers of ZnS. 9. A semiconductor nanocrystal in accordance with claim 1 wherein the second shell has a thickness of about 9-10 monolayers. 10. A semiconductor nanocrystal in accordance with claim 1 wherein the first shell comprises Zn and S. 11. A semiconductor nanocrystal in accordance with claim 1 wherein first shell has a bandgap which is greater than that of the second shell. 12. A semiconductor nanocrystal in accordance with claim 1 wherein the first shell has a bandgap which is greater than that of the second shell, and the bandgap of the first shell is also greater than that of the core. 13. A semiconductor nanocrystal in accordance with claim 1 wherein the first semiconductor material has a bandgap which differs from that of the second semiconductor material by at least 0.8 eV. 14. A light-emitting device comprising a light-emitting element and an optical material arranged to receive and convert at least a portion of light emitted by at least a portion of the light-emitting element from a first emission wavelength to one or more predetermined wavelengths, wherein the material comprises a semiconductor nanocrystal in accordance with claim 1 .
Assignees
Inventors
Classifications
with zinc cadmium · CPC title
with zinc or cadmium · CPC title
Electrically conductive inks · CPC title
Exhibiting three-dimensional carrier confinement, e.g. quantum dots · CPC title
Nanooptics, e.g. quantum optics or photonic crystals · CPC title
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- What does patent US10553750B2 cover?
- A semiconductor nanocrystal characterized by having a solid state photoluminescence external quantum efficiency at a temperature of 90° C. or above that is at least 95% of the solid state photoluminescence external quantum efficiency of the semiconductor nanocrystal at 25° C. is disclosed. A semiconductor nanocrystal having a multiple LO phonon assisted charge thermal escape activation energy o…
- Who is the assignee on this patent?
- Samsung Electronics Co Ltd
- What technology area does this patent fall under?
- Primary CPC classification C09K11/02. Mapped technology areas include Chemistry & Metallurgy.
- When was this patent published?
- Publication date Tue Feb 04 2020 00:00:00 GMT+0000 (Coordinated Universal Time) (B2). Legal status and post-grant events are not shown on this page.
- What related patents are in patentsdb?
- We list 12 related publications on this page (citations in our corpus or others sharing the same primary CPC).