Disclosed are barrier materials between bumps and pads, and related devices and methods. A semiconductor device includes an interconnect, a top material, a pad on the interconnect and at least a portion of the top material, a bump on the pad, and a barrier material between the pad and the bump. The top material defines a via therethrough to the interconnect. The pad includes electrically conductive material. The bump includes electrically conductive material. The bump is configured to electrically connect the interconnect to another device. The barrier material is between the pad and the bump. The barrier material includes a conductive material that is resistant to electromigration, intermetallic compound reaction, or both electromigration and intermetallic compound reaction.

A semiconductor device having an EMI shield layer and/or EMI shielding wires, and a manufacturing method thereof, are provided. In an example embodiment, the semiconductor device includes a semiconductor die, an EMI shield layer shielding the semiconductor die, and an encapsulating portion encapsulating the EMI shield layer. In another example embodiment, the semiconductor device further includes EMI shielding wires extending from the EMI shield layer and shielding the semiconductor die.

A semiconductor device having an EMI shield layer and/or EMI shielding wires, and a manufacturing method thereof, are provided. In an example embodiment, the semiconductor device includes a semiconductor die, an EMI shield layer shielding the semiconductor die, and an encapsulating portion encapsulating the EMI shield layer. In another example embodiment, the semiconductor device further includes EMI shielding wires extending from the EMI shield layer and shielding the semiconductor die.

The present disclosure relates to a method for forming a semiconductor device structure. The method includes forming a first semiconductor die and forming a second semiconductor die. The first semiconductor die includes a first metal layer, a first conductive via over the first metal layer, and a first conductive polymer liner surrounding the first conductive via. The second semiconductor die includes a second metal layer, a second conductive via over the second metal layer, and a second conductive polymer liner surrounding the second conductive via. The method also includes forming a conductive structure electrically connecting the first metal layer and the second metal layer by bonding the second semiconductor die to the first semiconductor die. The conductive structure is formed by the first conductive via, the first conductive polymer liner, the second conductive via, and the second conductive polymer liner.

An integrated circuit (IC) die structure comprises a substrate material comprising silicon. Integrated circuitry is over a first side of the substrate material. A composite layer is in direct contact with a second side of the substrate material. The second side is opposite the first side. The composite layer comprises a first constituent material associated with a first linear coefficient of thermal expansion (CTE), and a first thermal conductivity exceeding that of the substrate. The composite layer also comprises a second constituent material associated with a second CTE that is lower than the first, and a second thermal conductivity exceeding that of the substrate.

An integrated circuit (IC) die structure comprises a substrate material comprising silicon. Integrated circuitry is over a first side of the substrate material. A composite layer is in direct contact with a second side of the substrate material. The second side is opposite the first side. The composite layer comprises a first constituent material associated with a first linear coefficient of thermal expansion (CTE), and a first thermal conductivity exceeding that of the substrate. The composite layer also comprises a second constituent material associated with a second CTE that is lower than the first, and a second thermal conductivity exceeding that of the substrate.

A semiconductor device having an EMI shield layer and/or EMI shielding wires, and a manufacturing method thereof, are provided. In an example embodiment, the semiconductor device includes a semiconductor die, an EMI shield layer shielding the semiconductor die, and an encapsulating portion encapsulating the EMI shield layer. In another example embodiment, the semiconductor device further includes EMI shielding wires extending from the EMI shield layer and shielding the semiconductor die.

A semiconductor device having an EMI shield layer and/or EMI shielding wires, and a manufacturing method thereof, are provided. In an example embodiment, the semiconductor device includes a semiconductor die, an EMI shield layer shielding the semiconductor die, and an encapsulating portion encapsulating the EMI shield layer. In another example embodiment, the semiconductor device further includes EMI shielding wires extending from the EMI shield layer and shielding the semiconductor die.

An electronic device includes a semiconductor die having a lower surface, a sintered metallic layer underlying the lower surface of the semiconductor die, a conductive layer underlying the sintered metallic layer, and a conductive substrate underlying the conductive layer.

An electronic device includes a semiconductor die having a lower surface, a sintered metallic layer underlying the lower surface of the semiconductor die, a conductive layer underlying the sintered metallic layer, and a conductive substrate underlying the conductive layer.