A semiconductor package includes a first semiconductor chip on a lower structure. A first underfill is between the first semiconductor chip and the lower structure. The first underfill includes a first portion adjacent to a center region of the first semiconductor chip, and a second portion adjacent to an edge region of the first semiconductor chip. The second portion has a higher degree of cure than the first portion. A plurality of inner connection terminals is between the first semiconductor chip and the lower structure. The plurality of inner connection terminals extends in the first underfill.

A first metal layer can be deposited over first dielectric material layers of a first substrate, and can be patterned into first bonding pads. A first low-k material layer can be formed over the first bonding pads. The first low-k material layer includes a low-k dielectric material such as a MOF dielectric material or organosilicate glass. A second semiconductor die including second bonding pads can be provided. The first bonding pads are bonded to the second bonding pads to form a bonded assembly.

A first metal layer can be deposited over first dielectric material layers of a first substrate, and can be patterned into first bonding pads. A first low-k material layer can be formed over the first bonding pads. The first low-k material layer includes a low-k dielectric material such as a MOF dielectric material or organosilicate glass. A second semiconductor die including second bonding pads can be provided. The first bonding pads are bonded to the second bonding pads to form a bonded assembly.

A cryogenic electronic package includes at least two superconducting and/or conventional metal semiconductor structures. Each of the semiconductor structures includes a substrate and a superconducting trace. Additionally, each of the semiconductor structures includes a passivation layer and one or more under bump metal (UBM) structures. The cryogenic electronic package also includes one or more superconducting and/or conventional metal interconnect structures disposed between selected ones of the at least two superconducting semiconductor structures. The interconnect structures are electrically coupled to respective ones of the UBM structures of the semiconductor structures to form one or more electrical connections between the semiconductor structures. A method of fabricating a cryogenic electronic package is also provided.

A cryogenic electronic package includes at least two superconducting and/or conventional metal semiconductor structures. Each of the semiconductor structures includes a substrate and a superconducting trace. Additionally, each of the semiconductor structures includes a passivation layer and one or more under bump metal (UBM) structures. The cryogenic electronic package also includes one or more superconducting and/or conventional metal interconnect structures disposed between selected ones of the at least two superconducting semiconductor structures. The interconnect structures are electrically coupled to respective ones of the UBM structures of the semiconductor structures to form one or more electrical connections between the semiconductor structures. A method of fabricating a cryogenic electronic package is also provided.

A light emitting apparatus includes at least one light emitting device; a light transparent member that receives incident light emitted from the light emitting device; and a covering member. The light transparent member is a light conversion member that has an externally exposed light emission surface and a side surface contiguous to the light emission surface. The covering member contains a light reflective material, and covers at least the side surface of said light transparent member. A content of said light reflective material is not less than 30 wt %.

A light emitting apparatus includes at least one light emitting device; a light transparent member that receives incident light emitted from the light emitting device; and a covering member. The light transparent member is a light conversion member that has an externally exposed light emission surface and a side surface contiguous to the light emission surface. The covering member contains a light reflective material, and covers at least the side surface of said light transparent member. A content of said light reflective material is not less than 30 wt %.

An improvement is achieved in the reliability of a semiconductor device. Over a semiconductor substrate, an interlayer insulating film is formed and, over the interlayer insulating film, a pad is formed. Over the interlayer insulating film, an insulating film is formed so as to cover the pad. In the insulating film, an opening is formed to expose a part of the pad. The pad is a pad to which a copper wire is to be electrically coupled and which includes an Al-containing conductive film containing aluminum as a main component. Over the Al-containing conductive film in a region overlapping the opening in plan view, a laminated film including a barrier conductor film, and a metal film over the barrier conductor film is formed. The metal film is in an uppermost layer. The barrier conductor film is a single-layer film or a laminated film including one or more layers of films selected from the group consisting of a Ti film, a TiN film, a Ta film, a TaN film, a W film, a WN film, a TiW film, and a TaW film. The metal film is made of one or more metals selected from the group consisting of Pd, Au, Ru, Rh, Pt, and Ir.

An improvement is achieved in the reliability of a semiconductor device. Over a semiconductor substrate, an interlayer insulating film is formed and, over the interlayer insulating film, a pad is formed. Over the interlayer insulating film, an insulating film is formed so as to cover the pad. In the insulating film, an opening is formed to expose a part of the pad. The pad is a pad to which a copper wire is to be electrically coupled and which includes an Al-containing conductive film containing aluminum as a main component. Over the Al-containing conductive film in a region overlapping the opening in plan view, a laminated film including a barrier conductor film, and a metal film over the barrier conductor film is formed. The metal film is in an uppermost layer. The barrier conductor film is a single-layer film or a laminated film including one or more layers of films selected from the group consisting of a Ti film, a TiN film, a Ta film, a TaN film, a W film, a WN film, a TiW film, and a TaW film. The metal film is made of one or more metals selected from the group consisting of Pd, Au, Ru, Rh, Pt, and Ir.

A semiconductor package includes a die pad, a semiconductor die mounted on the die pad, a plurality of leads including a power lead disposed along a peripheral edge of the die pad, at least one connecting bar connecting the die pad, a power bar disposed on one side of the connecting bar, and a surface mount device (SMD) having a first terminal and a second terminal. The first terminal is electrically connected to the ground level through a first bond wire. The second terminal is electrically connected a power level through a second bond wire.