Abstract: A semiconductor light-emitting device includes a base layer having a top surface, multiple light-transmissive members, a buffer layer, and a light-emitting epitaxial structure. The light-transmissive members are formed on the top surface of the base layer and spaced apart from one another. The buffer layer is made of a first group-III nitride material, and is formed to cover the light-transmissive members and the top surface of the base layer exposed from the light-transmissive members. The light-emitting epitaxial structure includes a first semiconductor layer formed on the buffer layer. The first semiconductor layer is made of a second group-III nitride material different from the first group-III nitride material.

Abstract: An epitaxial substrate includes: a base member; and a plurality of spaced apart light-transmissive members, each of which is formed on and tapers from an upper surface of the base member, and each of which is made of a light-transmissive material having a refractive index lower than that of the base member. A light-emitting diode having the epitaxial substrate, and methods for making the epitaxial substrate and the light-emitting diode are also disclosed.

Abstract: An epitaxial substrate includes: a base member; and a plurality of spaced apart light-transmissive members, each of which is formed on and tapers from an upper surface of the base member, and each of which is made of light-transmissive material having a refractive index lower than that of the base member. A light-emitting diode having the epitaxial substrate, and methods for making the epitaxial substrate and the light-emitting diode are also disclosed.

Abstract: A method for patterning an epitaxial substrate with nano-patterns, includes: forming a plurality of zinc oxide nano-particles on an epitaxial substrate; dry-etching the epitaxial substrate exposed from the zinc oxide nano-particles to form nano-patterns corresponding to the zinc oxide nano-particles; and removing the zinc oxide nano-particles on the epitaxial substrate. A method for forming a light-emitting diode having a patterned epitaxial substrate with the nano-patterns is also disclosed.

Abstract: A light-emitting diode includes: an epitaxial substrate including a base member, and a plurality of spaced apart first light-transmissive members; a light-emitting unit including a first-type semiconductor layer, a light-emitting layer, and a second-type semiconductor layer; and an electrode unit electrically connected to the light-emitting unit. The first-type semiconductor layer has a bottom film covering the first light-transmissive members, a plurality of spaced apart second light-transmissive members formed on a top face of the bottom film, and a top film formed on the bottom film to cover the second light-transmissive members.

Abstract: A light-emitting diode includes: an epitaxial substrate; a light-emitting unit including a lower semiconductor layer, and at least two epitaxial units that are separately formed on the lower semiconductor layer, the epitaxial units cooperating with the lower semiconductor layer to define two light-emitting sources that are capable of emitting different colors of light; and an electrode unit including a first electrode which is formed on an exposed portion of the lower semiconductor layer exposed from the epitaxial units, and at least two second electrodes each of which is formed on a corresponding one of the epitaxial units. A method for forming a light-emitting diode is also disclosed.

Abstract: A light-emitting diode structure includes first and second conductors, and a light-emitting diode unit. The light-emitting diode unit includes: a light-emitting diode die including first and second polarity sides, and a surrounding surface, the first polarity side being electrically connected to the first conductor; an insulator disposed around the surrounding surface; and a transparent conductive film extending from the second polarity side, along an outer surface of the insulator, and to the second conductor, so that the second polarity side is electrically connected to the second conductor through the transparent conductive film.

Abstract: A light-emitting diode device includes: a substrate including first and second conductors; a light-emitting diode die including first and second polarity sides, and a surrounding surface formed between the first and second polarity sides; an insulator disposed around the surrounding surface; a transparent conductive layer extending from the second polarity side of the light-emitting diode die oppositely of the substrate, along an outer surface of the insulator, and to the second conductor; and a reflecting cup formed on the substrate to define a space with the substrate. The light-emitting diode die, the insulator and the transparent conductive layer are disposed in the space.

Abstract: A method for patterning an epitaxial substrate with nano-patterns, includes: forming a plurality of zinc oxide nano-particles on an epitaxial substrate; dry-etching the epitaxial substrate exposed from the zinc oxide nano-particles to form nano-patterns corresponding to the zinc oxide nano-particles; and removing the zinc oxide nano-particles on the epitaxial substrate. A method for forming a light-emitting diode having a patterned epitaxial substrate with the nano-patterns is also disclosed.

Abstract: A light-emitting diode includes: an epitaxial substrate including a base member, and a plurality of spaced apart first light-transmissive members; a light-emitting unit including a first-type semiconductor layer, a light-emitting layer, and a second-type semiconductor layer; and an electrode unit electrically connected to the light-emitting unit. The first-type semiconductor layer has a bottom film covering the first light-transmissive members, a plurality of spaced apart second light-transmissive members formed on a top face of the bottom film, and a top film formed on the bottom film to cover the second light-transmissive members.

Abstract: An epitaxial substrate includes: a base member; and a plurality of spaced apart light-transmissive members, each of which is formed on and tapers from an upper surface of the base member, and each of which is made of a light-transmissive material having a refractive index lower than that of the base member. A light-emitting diode having the epitaxial substrate, and methods for making the epitaxial substrate and the light-emitting diode are also disclosed.

Abstract: A method for manufacturing a light-emitting diode (LED) is described. The method comprises: providing a temporary substrate; forming an illuminant epitaxial structure on the temporary substrate; forming a first transparent conductive layer on the illuminant epitaxial structure; forming a metal substrate on the first transparent conductive layer; forming an adhesion layer on the metal substrate; providing a supporting substrate, wherein the supporting substrate is connected to the metal substrate by the adhesion layer; removing the temporary substrate, so as to expose a surface of the illuminant epitaxial structure; forming a second transparent conductive layer on the exposed surface of the illuminant epitaxial structure; and forming an electrode on a portion of the second transparent conductive layer.

Abstract: A light-emitting diode (LED) is described. The light-emitting diode comprises a metal substrate, a reflective layer, a first transparent conductive layer, an illuminant epitaxial structure and a second transparent conductive layer stacked in sequence, and an electrode located on a portion of the second transparent conductive layer. A thickness of the metal substrate is between 30 ?m and 150 ?m. In addition, the light-emitting diode can further comprises a supporting substrate and an adhesive layer. The adhesive layer is located between the supporting substrate and the metal substrate to adhere the supporting substrate onto the metal substrate.

Abstract: A method for manufacturing a light-emitting diode (LED) is described. The method comprises: providing a temporary substrate; forming an illuminant epitaxial structure on the temporary substrate; forming a first transparent conductive layer on the illuminant epitaxial structure; forming a metal substrate on the first transparent conductive layer; forming an adhesion layer on the metal substrate; providing a supporting substrate, wherein the supporting substrate is connected to the metal substrate by the adhesion layer; removing the temporary substrate, so as to expose a surface of the illuminant epitaxial structure; forming a second transparent conductive layer on the exexposed surface of the illuminant epitaxial structure; and forming an electrode on a portion of the second transparent conductive layer.

Abstract: A light-emitting diode (LED) is described. The light-emitting diode comprises a metal substrate, a reflective layer, a first transparent conductive layer, an illuminant epitaxial structure and a second transparent conductive layer stacked in sequence, and an electrode located on a portion of the second transparent conductive layer. A thickness of the metal substrate is between 30 ?m and 150 ?m. In addition, the light-emitting diode can further comprises a supporting substrate and an adhesive layer. The adhesive layer is located between the supporting substrate and the metal substrate to adhere the supporting substrate onto the metal substrate.