Light emitting diode device

What is claimed is: 1. A light emitting diode (LED) device, comprising: an epitaxial layered structure including a first-type semiconductor layer, an active layer and a second-type semiconductor layer sequentially disposed in such order, and having a recess-defining wall that defines a recess; a current spreading layer formed on a surface of said second-type semiconductor layer opposite to said active layer; a first insulating layer including a first portion that is formed on said recess-defining wall, and a second portion that is formed on said current spreading layer, said second portion being formed with at least one first through hole to expose a portion of said current spreading layer; and a reflective structure formed on said first insulating layer and including a metallic reflecting layer that is formed on said second portion of said first insulating layer, that extends into said at least one first through hole to contact said current spreading layer, and that has a hole-defining wall defining a hole, said hole-defining wall being located between said first portion and said second portion of said first insulating layer; wherein said first insulating layer is formed with at least one second through hole that separates said first portion from said second portion and that corresponds in position to said hole of said metallic reflecting layer, and said hole-defining wall of said metallic reflecting layer is located in said second through hole. 2. The LED device of claim 1 , wherein a projection of said second portion of said first insulating layer on said surface of said second-type semiconductor layer covers a projection of said current spreading layer on said surface of said second-type semiconductor layer. 3. The LED device of claim 1 , wherein a projection of said metallic reflecting layer on said surface of said second-type semiconductor layer covers a projection of said current spreading layer on said surface of said second-type semiconductor layer. 4. The LED device of claim 1 , wherein said second portion of said first insulating layer is formed with a plurality of said first through holes that are arranged in an array. 5. The LED device of claim 1 , wherein said reflective structure further comprises a metallic barrier layer formed on said metallic reflecting layer. 6. The LED device of claim 5 , wherein said metallic reflecting layer and said metallic barrier layer are sequentially formed on said first insulating layer in such order. 7. The LED device of claim 5 , wherein said metallic barrier layer is formed on a portion of said first portion of said first insulating layer. 8. The LED device of claim 7 , wherein said metallic barrier layer has an opening-defining wall that defines an opening corresponding in position to said hole of said metallic reflecting layer, said opening-defining wall is located on said first portion. 9. The LED device of claim 7 , wherein said metallic barrier layer has an opening-defining wall that defines an opening corresponding in position to said hole of said metallic reflecting layer, and said opening-defining wall abut a periphery of said first portion. 10. The LED device of claim 1 , wherein said current spreading layer is formed with at least one opening structure including at least one first opening to expose a portion of said surface of said second-type semiconductor layer, said first insulating layer extending into said first opening and contacting said second-type semiconductor layer. 11. The LED device of claim 1 , wherein said first insulating layer is made of a material selected from the group consisting of silicon nitride, silicon oxide, aluminum oxide, magnesium fluoride, titanium dioxide, and combinations thereof. 12. The LED device of claim 1 , wherein: said recess of said epitaxial layered structure is spatially communicated with and corresponds in position to said hole of said metallic reflecting layer, that extends through said second-type semiconductor layer and said active layer, and that terminates at said first-type semiconductor layer to expose said first-type semiconductor layer; and said first portion covering said recess-defining wall exposes said first-type semiconductor layer. 13. The LED device of claim 1 , further comprising a first electrode that is electrically connected to said first-type semiconductor layer through said recess, and a second electrode that is disposed on said reflective structure and which is electrically connected to said second-type semiconductor layer. 14. The LED device of claim 13 , further comprising a second insulating layer that is disposed over said reflective structure, that is formed with a first penetrating hole which is spatially communicated with said recess to expose said first-type semiconductor layer, and that is formed with a second penetrating hole to expose said reflective structure, said second electrode being disposed on said second insulating layer and filling said second penetrating hole to contact said reflective structure, said first electrode being disposed on said second insulating layer and being electrically connected to said first-type semiconductor layer through said recess and said first penetrating hole. 15. The LED device of claim 14 , wherein said second insulating layer is made of a material selected from the group consisting of silicon nitride, silicon oxide, aluminum oxide, magnesium fluoride, titanium dioxide, and combinations thereof. 16. The LED device of claim 1 , wherein said current spreading layer has a thickness ranging from 5 nm to 60 nm. 17. The LED device of claim 1 , wherein said first insulating layer includes a distributed Bragg reflector (DBR). 18. The LED device of claim 1 , wherein said first insulating layer has a thickness larger than a thickness of said current spreading layer. 19. The LED device of claim 1 , wherein said first insulating layer is formed with a plurality of said second through holes, each of which being formed in a continuous loop shape.