| 摘要 |
The present disclosure provides semiconductor chips (SC10, SC11), semiconductor devices and methods of manufacturing the semiconductor devices. The semiconductor device includes a base substrate (S100) and a semiconductor chip (SC10, SC11) on the base substrate (S100), the semiconductor chip (SC10, SC11) including a first layer structure (L10) and a second layer structure (L20) opposite to the first layer structure (L10), at least one of the first and second layer structures (L10, L20) including a semiconductor device portion, and a bonding structure (B10, B11) between the first layer structure (L10) and the second layer structure (L20), the bonding structure (B10, B11) including a silver-tin compound (Ag3Sn) and a nickel-tin compound (Ni3Sn4 and optionally also Ni3Sn). The semiconductor portion may be a light-emitting device portion, wherein the first layer structure (L10) includes a silicon substrate and the second layer structure (L20) includes the light-emitting device portion, which includes a group III-V semiconductor, for example, a GaN-based semiconductor. The method of manufacturing a semiconductor device comprises forming a first metal layer on a first substrate structure, the first metal layer including a first nickel (Ni) layer and a first tin (Sn) layer; forming a second metal layer on a second substrate structure, the second metal layer including a second Ni layer and optionally a second Sn layer on the second Ni layer; forming a capping layer between the first and second metal layers, the capping layer including silver (Ag); and forming a bonding structure including bonding the first metal layer formed on the first substrate structure to the second metal layer formed on the second substrate structure, and forming an intermediate layer between the first metal layer and the second metal layer by a reaction between the first and second metal layers and the capping layer, the intermediate layer including intermetallic compounds (Ag3Sn, Ni3Sn4 and optionally Ni3Sn). The Ag3Sn that is formed by a reaction between Ag and Sn fills a void region which occurs due to a volume contraction of a bonding portion occurring during a reaction between Ni and Sn. |
