Abstract: A flip-chip light emitting diode comprises a transparent base-plate, at least a first electrical semi-conductive layer, a light emitting layer, a second electrical semi-conductive layer, at least a first ohmic contact, a second ohmic contact and a third ohmic contact are installed above the transparent base-plate. The at least first ohmic contact is electrically connected to the third ohmic contact through a connection passage. A first electrode area is formed above the second electrical semi-conductive layer. The second ohmic contact is disposed above the transparent base-plate and adjacent to a side of the first ohmic contact. A second electrode area is formed on the second ohmic contact.

Abstract: A flip-chip light emitting diode comprises a transparent base-plate, at least a first electrical semi-conductive layer, a light emitting layer, a second electrical semi-conductive layer, at least a first ohmic contact, a second ohmic contact and a third ohmic contact are installed above the transparent base-plate. The at least first ohmic contact is electrically connected to the third ohmic contact through a connection passage. A first electrode area is formed above the second electrical semi-conductive layer. The second ohmic contact is disposed above the transparent base-plate and adjacent to a side of the first ohmic contact. A second electrode area is formed on the second ohmic contact.

Abstract: A light-emitting diode includes a first electrode, a conductive substrate layer, a reflective layer, a first electrical semiconductor layer, a active layer, a second electrical semiconductor layer, and at least one second electrode. The conductive substrate layer is formed on the first electrode. The reflective layer is formed on the conductive substrate layer. The first electrical semiconductor layer is formed on the reflective layer. The active layer is formed on the first electrical semiconductor layer. The second electrical semiconductor layer is formed on the active layer. The at least one second electrode is formed on the second electrical semiconductor layer. At least one third electrode is additionally disposed under the second electrical semiconductor layer. At least one connection channel is disposed between the second electrode and the third electrode, so that the second electrode and the third electrode are electrically connected.

Abstract: A flip-chip light emitting diode comprises a transparent base-plate, at least a first electrical semi-conductive layer, a light emitting layer, a second electrical semi-conductive layer, at least a first ohmic contact, a second ohmic contact and a third ohmic contact are installed above the transparent base-plate. The at least first ohmic contact is electrically connected to the third ohmic contact through a connection passage. A first electrode area is formed above the second electrical semi-conductive layer. The second ohmic contact is disposed above the transparent base-plate and adjacent to a side of the first ohmic contact. A second electrode area is formed on the second ohmic contact.

Abstract: A method for bonding a semiconductor structure with a substrate and a high efficiency photonic device manufactured by using the same method are disclosed. The method comprises steps of: providing a semiconductor structure and a substrate; forming a composite bonding layer on the semiconductor structure; and bonding the substrate with the composite bonding layer on the semiconductor structure to form a composite alloyed bonding layer. The semiconductor structure includes a compound semiconductor substrate and a high efficiency photonic device is produced after the compound semiconductor substrate is removed. Besides, the composite bonding layer can be formed on the substrate or formed on both the semiconductor structure and substrate simultaneously.