A nanostructure semiconductor light emitting device includes a plurality of light emitting nanostructures, each of which including a nanocore formed of a first conductivity-type semiconductor material, and an active layer and a second conductivity-type semiconductor layer sequentially disposed on a
A nanostructure semiconductor light emitting device includes a plurality of light emitting nanostructures, each of which including a nanocore formed of a first conductivity-type semiconductor material, and an active layer and a second conductivity-type semiconductor layer sequentially disposed on a surface of the nanocore, a contact electrode disposed on a surface of the second conductivity-type semiconductor layer and formed of a transparent conductive material, a first light transmissive portion filling space between the plurality of light emitting nanostructures and formed of a material having a first refractive index, and a second light transmissive portion disposed on an upper surface of the first light transmissive portion to cover the plurality of light emitting nanostructures and formed of a material having a second refractive index higher than the first refractive index.
대표청구항▼
1. A nanostructure semiconductor light emitting device, comprising: a plurality of light emitting nanostructures, each of which including a nanocore having a first conductivity-type semiconductor material, and a shell including an active layer and a second conductivity-type semiconductor layer on a
1. A nanostructure semiconductor light emitting device, comprising: a plurality of light emitting nanostructures, each of which including a nanocore having a first conductivity-type semiconductor material, and a shell including an active layer and a second conductivity-type semiconductor layer on a surface of the nanocore;a contact electrode on a surface of the second conductivity-type semiconductor layer and including a transparent conductive material;a first light transmissive portion between the plurality of light emitting nanostructures and including a material having a first refractive index; anda second light transmissive portion on an upper surface of the first light transmissive portion and covering the plurality of light emitting nanostructures and including a material having a second refractive index higher than the first refractive index. 2. The nanostructure semiconductor light emitting device of claim 1, wherein the upper surface of the first light transmissive portion is lower than a height of the plurality of light emitting nanostructures. 3. The nanostructure semiconductor light emitting device of claim 2, wherein a portion of the second light transmissive portion is between the plurality of light emitting nanostructures and has an interface substantially in contact with the first light transmissive portion. 4. The nanostructure semiconductor light emitting device of claim 2, wherein the contact electrode is on the upper surface of the first light transmissive portion and on surfaces of portions of the light emitting nanostructures that are higher than the upper surface of the first light transmissive portion. 5. The nanostructure semiconductor light emitting device of claim 1, wherein one or more of the plurality of light emitting nanostructures includes: a main portion having side surfaces, each side surface being in a first crystal plane; anda tip portion having surfaces, each surface being in a second crystal plane different from the first crystal plane. 6. The nanostructure semiconductor light emitting device of claim 5, wherein the upper surface of the first light transmissive portion is higher than substantially 50% of a height of the main portion. 7. The nanostructure semiconductor light emitting device of claim 5, wherein a portion of the second light transmissive portion is between the plurality of light emitting nanostructures and has an interface in substantial contact with the first light transmissive portion, and the interface is on the side surfaces of the light emitting nanostructures. 8. The nanostructure semiconductor light emitting device of claim 7, wherein the contact electrode is on the side surfaces of the light emitting nanostructures and exposes upper portions of the light emitting nanostructures. 9. The nanostructure semiconductor light emitting device of claim 8, wherein the contact electrode and the first light transmissive portion have a substantially same height. 10. A nanostructure semiconductor light emitting device, comprising: a plurality of light emitting nanostructures, each of which including a nanocore including a first conductivity-type semiconductor material, and a shell including an active layer and a second conductivity-type semiconductor layer on a surface of the nanocore;a contact electrode on a surface of the second conductivity-type semiconductor layer and including a transparent conductive material;a first light transmissive portion between the plurality of light emitting nanostructures and including a material having a first refractive index; anda second light transmissive portion on an upper surface of the first light transmissive portion and covering the plurality of light emitting nanostructures, including a plurality of lenses, and including a material having a second refractive index higher than the first refractive index. 11. The nanostructure semiconductor light emitting device of claim 10, wherein the second light transmissive portion further comprises a plate on the first light transmissive portion and covering the plurality of light emitting nanostructures, and the plurality of lenses are on the plate. 12. The nanostructure semiconductor light emitting device of claim 10, wherein the plurality of lenses are on the first light transmissive portion and covering at least one of the light emitting nanostructures. 13. The nanostructure semiconductor light emitting device of claim 10, wherein each of the plurality of lenses covers at least two of the light emitting nanostructures. 14. The nanostructure semiconductor light emitting device of claim 10, wherein each of the plurality of lenses covers a corresponding one of the plurality of light emitting nanostructures. 15. The nanostructure semiconductor light emitting device of claim 10, wherein each of the plurality of light emitting nanostructures comprises: a main portion having side surfaces, each side surface being in a first crystal plane; anda tip portion on the main portion and having surfaces, each surface being in a second crystal plane different from the first crystal plane, andan interface between the first light transmissive portion and the second light transmissive portion is equal to or lower than a height of the main portion. 16. The nanostructure semiconductor light emitting device of claim 15, wherein the contact electrode is on the side surfaces of the light emitting nanostructures and exposes one or more upper portions of the light emitting nanostructures. 17. The nanostructure semiconductor light emitting device of claim 16, wherein the second light transmissive portion has an interface in direct contact with the surfaces of the light emitting nanostructures. 18. A light emitting module, comprising: a circuit board having a first electrode structure and a second electrode structure; andthe nanostructure semiconductor light emitting device of claim 1,wherein first and second electrodes of the nanostructure semiconductor light emitting device are connected to the first and second electrode structures of the circuit board, respectively. 19. A lighting device, comprising: a light emitting module including the nanostructure semiconductor light emitting device of claim 1;a driver configured to drive the light emitting module, andan external connector configured to supply voltage to the driver. 20. A nanostructure semiconductor light emitting device, comprising: a plurality of light emitting nanostructures; anda light transmissive protective layer including a first light transmissive portion having a first refractive index and a second light transmissive portion having a second refractive index different from the first refractive index;the first light transmissive portion being between the plurality of light emitting nanostructures; andthe second light transmissive portion being on upper portions of the plurality of light emitting nanostructures.
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