Abstract: This disclosure refers to a manufacturing method of a flip-chip structure of III group semiconductor light emitting device. The manufacturing method includes steps of: growing a substrate, a buffer layer, an N type nitride semiconductor layer, an active layer and a P type nitride semiconductor layer sequentially from bottom to top to form an epitaxial structure, depositing a transparent conductive layer; defining an isolation groove with the yellow light etching process, depositing a first insulation layer structure, depositing a P type contact metal and N type contact metal, depositing a second insulation layer structure, depositing a flip-chip P type electrode and flip-chip N type electrode, then removing the photo resist by using of the stripping process to get a wafer; thinning, dicing, separating, measuring and sorting the wafer.

Abstract: This application refers to a flip-chip structure of Group III semiconductor light emitting device. The flip-chip structure includes: a substrate, a buffer layer, nitride semiconductor layer, an active layer, a P type nitride semiconductor layer, a transparent conductive layer, a first insulation layer, a P type contact metal, a N type contact metal, a second insulation layer, a flip-chip P type electrode and a flip-chip N type electrode. The substrate, the buffer layer, the N type nitride semiconductor layer, the active layer, the P type nitride semiconductor layer which grow sequentially from bottom to top form a linear convex mesa. In this application, structure of the first insulation layer which is formed by aBraggs reflective layer, a metal layer and the multilayer oxide insulation layer, acts as a reflector structure and an insulation layer to replace the flip-chip reflector structure design and the first insulation layer, so that a metal protective layer can be omitted.