The present application discloses a method for fabricating a semiconductor device. The method includes providing a substrate, forming a first pad above the substrate, forming a first redistribution conductive layer on the first pad, and forming a first redistribution thermal release layer on the first redistribution conductive layer. The first redistribution conductive layer and the first redistribution thermal release layer together form a first redistribution structure and the first redistribution thermal release layer is configured to sustain a thermal resistance between about 0.04° C. cm.sup.2/Watt and about 0.25° C. cm.sup.2/Watt.

The present application discloses a method for fabricating a semiconductor device. The method includes providing a substrate, forming a first pad above the substrate, forming a first redistribution conductive layer on the first pad, and forming a first redistribution thermal release layer on the first redistribution conductive layer. The first redistribution conductive layer and the first redistribution thermal release layer together form a first redistribution structure and the first redistribution thermal release layer is configured to sustain a thermal resistance between about 0.04° C. cm.sup.2/Watt and about 0.25° C. cm.sup.2/Watt.

The present application discloses a method for fabricating a semiconductor device with a connection structure. The method includes providing a first semiconductor structure comprising a plurality of first conductive features adjacent to a top surface of the first semiconductor structure; forming a connection structure comprising a connection insulating layer on the top surface of the first semiconductor structure, a connection layer in the connection insulating layer, and a plurality of first porous interlayers on the plurality of first conductive features and in the connection insulating layer; and forming a second semiconductor structure comprising a plurality of second conductive features on the plurality of first porous interlayers

The present application discloses a method for fabricating a semiconductor device with a connection structure. The method includes providing a first semiconductor structure comprising a plurality of first conductive features adjacent to a top surface of the first semiconductor structure; forming a connection structure comprising a connection insulating layer on the top surface of the first semiconductor structure, a connection layer in the connection insulating layer, and a plurality of first porous interlayers on the plurality of first conductive features and in the connection insulating layer; and forming a second semiconductor structure comprising a plurality of second conductive features on the plurality of first porous interlayers

The present disclosure relates to a semiconductor device structure with a conductive polymer liner and a method for preparing the semiconductor device structure. The semiconductor device structure includes a first metal layer disposed over a semiconductor substrate, and a second metal layer disposed over the first metal layer. The semiconductor device structure also includes a conductive structure disposed between the first metal layer and the second metal layer. The conductive structure includes a first conductive via and a first conductive polymer liner surrounding the first conductive via.

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.

The present application discloses a semiconductor device and a method for fabricating the semiconductor device. The semiconductor device includes a first semiconductor structure including a plurality of first conductive features adjacent to a top surface of the first semiconductor structure, a second semiconductor structure positioned above the first semiconductor structure and including a plurality of second conductive features adjacent to a bottom surface of the second semiconductor structure, and a connection structure positioned between the first semiconductor structure and the second semiconductor structure. The connection structure includes a connection layer electrically coupled to the plurality of first conductive features and the plurality of second conductive features, and a plurality of first porous interlayers positioned between the plurality of first conductive features and the plurality of second conductive features. A porosity of the plurality of first porous interlayers is between about 25% and about 100%.

The present application discloses a semiconductor device and a method for fabricating the semiconductor device. The semiconductor device includes a first semiconductor structure including a plurality of first conductive features adjacent to a top surface of the first semiconductor structure, a second semiconductor structure positioned above the first semiconductor structure and including a plurality of second conductive features adjacent to a bottom surface of the second semiconductor structure, and a connection structure positioned between the first semiconductor structure and the second semiconductor structure. The connection structure includes a connection layer electrically coupled to the plurality of first conductive features and the plurality of second conductive features, and a plurality of first porous interlayers positioned between the plurality of first conductive features and the plurality of second conductive features. A porosity of the plurality of first porous interlayers is between about 25% and about 100%.

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.