A nanostructure semiconductor light emitting device includes a base layer, an insulating layer and a plurality of light emitting nanostructures. The base layer is formed of a first conductivity type semiconductor. The insulating layer is disposed on the base layer and has a plurality of openings thr
A nanostructure semiconductor light emitting device includes a base layer, an insulating layer and a plurality of light emitting nanostructures. The base layer is formed of a first conductivity type semiconductor. The insulating layer is disposed on the base layer and has a plurality of openings through which regions of the base layer are exposed. Each of the light emitting nanostructures is disposed on the exposed regions of the base layer and includes nanocore formed of a first conductivity type semiconductor, and an active layer and a second conductivity-type semiconductor layer sequentially disposed on side surfaces of the nanocore. Upper surfaces of the light emitting nanostructures are non-planar and contain portions free of the second conductivity-type semiconductor layer in order to prevent light emissions during device driving.
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1. A nanostructure semiconductor light emitting device, comprising: a base layer formed of a first conductivity-type semiconductor;an insulating layer disposed on the base layer and having a plurality of openings through which regions of the base layer are exposed; anda plurality of light emitting n
1. A nanostructure semiconductor light emitting device, comprising: a base layer formed of a first conductivity-type semiconductor;an insulating layer disposed on the base layer and having a plurality of openings through which regions of the base layer are exposed; anda plurality of light emitting nanostructures, each being disposed on the exposed regions of the base layer and including a nanocore formed of a first conductivity-type semiconductor, and an active layer and a second conductivity-type semiconductor layer which are sequentially disposed on side surfaces of the nanocore,wherein upper surfaces of the light emitting nanostructures are non-planar and contain portions free of the active layer and the second conductivity-type semiconductor layer in order to prevent light emissions during device driving. 2. The nanostructure semiconductor light emitting device of claim 1, wherein the nanocore is exposed through the portions of the upper surfaces of the light emitting nanostructures that are free of the second conductivity-type semiconductor layer and the active layer. 3. The nanostructure semiconductor light emitting device of claim 1, wherein the side surfaces of the nanocore have a crystal plane and the active layer is disposed on the side surfaces of the nanocores. 4. The nanostructure semiconductor light emitting device of claim 1, wherein the side surfaces of the nanocore have a crystal plane that is perpendicular to an upper surface of the base layer. 5. The nanostructure semiconductor light emitting device of claim 1, wherein the light emitting nanostructure and the base layer are formed of nitride single crystals. 6. The nanostructure semiconductor light emitting device of claim 5, wherein the side surfaces of the nanocore have non-polar plane. 7. The nanostructure semiconductor light emitting device of claim 1, wherein the non-planar upper surfaces of the light emitting nanostructure have a convex or concave shape. 8. The nanostructure semiconductor light emitting device of claim 1, wherein the non-planar upper surfaces of the light emitting nanostructures are uneven surfaces. 9. The nanostructure semiconductor light emitting device of claim 1, further comprising: a contact electrode disposed on surfaces of the second conductivity-type semiconductor layers,wherein the non-planar upper surfaces of the light emitting nanostructures are free of the contact electrode thereon. 10. The nanostructure semiconductor light emitting device of claim 1, wherein a group of nanocores among the plurality of nanocores have cross-sectional areas different from cross-sectional areas of a remaining group of nanocores among the plurality of nanocores. 11. The nanostructure semiconductor light emitting device of claim 1, wherein a group of nanocores among the plurality of nanocores have an interval therebetween different from an interval between a remaining group of nanocores among the plurality of nanocores. 12. A nanostructure semiconductor light emitting device, comprising: a base layer formed of a first conductivity-type semiconductor; an insulating layer disposed on the base layer and having a plurality of openings through which regions of the base layer are exposed;a plurality of nanocores, each being disposed on the exposed regions of the base layer and being formed of a first conductivity-type semiconductor; andactive layers and second conductivity-type semiconductor layers, sequentially disposed on side surfaces of the nanocores; anda contact electrode disposed on surfaces of the second conductivity-type semiconductor wherein the side surfaces of the nanocores have a crystal plane, and the upper surfaces of the nanocores are non-planar, andwherein the non-planar upper surfaces of the nanocores are free of the contact electrode thereon. 13. The nanostructure semiconductor light emitting device of claim 12, wherein the active layers are disposed only on the side surfaces of the nanocores. 14. The nanostructure semiconductor light emitting device of claim 13, wherein the side surfaces of the nanocores have a crystal plane that is perpendicular to an upper surface of the base layer. 15. The nanostructure semiconductor light emitting device of claim 14, wherein: the light emitting nanostructures and the base layers are nitride single crystals, andthe side surfaces of the nanocores have a non-polar plane. 16. A nanostructure semiconductor light emitting device, comprising: a base layer formed of a first conductivity-type semiconductor;an insulating layer disposed on the base layer and having a plurality of openings through which regions of the base layer are exposed; anda plurality of light emitting nanostructures, each being disposed on the exposed regions of the base layer and including a nanocore formed of a first conductivity-type semiconductor, and an active layer and a second conductivity-type semiconductor layer which are sequentially disposed on side surfaces of the nanocore,wherein upper surfaces of the light emitting nanostructures are non-planar and contain portions free of the active layer. 17. The nanostructure semiconductor light emitting device of claim 16, wherein the upper surfaces of the light emitting nanostructures contain portions free of the second conductivity-type semiconductor layer and the active layer, whereby the nanocore is exposed. 18. The nanostructure semiconductor light emitting device of claim 16, wherein the side surfaces of the nanocore have a crystal plane and the active layer is disposed on the side surfaces of the nanocores. 19. The nanostructure semiconductor light emitting device of claim 16, wherein the side surfaces of the nanocore have a crystal plane that is perpendicular to an upper surface of the base layer. 20. The nanostructure semiconductor light emitting device of claim 16, wherein the light emitting nanostructure and the base layer are formed of nitride single crystals.
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