A printed structure includes a destination substrate comprising two or more contact pads disposed on or in a surface of the destination substrate, a component disposed on the surface, and two or more electrically conductive connection posts. Each of the connection posts extends from a common side of the component. Each of the connection posts is in electrical and physical contact with one of the contact pads. The component is tilted with respect to the surface of the destination substrate. Each of the connection posts has a flat distal surface.

A display device comprises a display panel including a display area including pixels, and a pad area adjacent to the display area, and a driving integrated circuit mounted on the pad area, wherein the pad area includes a stud pad area located at an edge of the pad area and including at least one stud pad electrode, the driving integrated circuit includes a circuit base, and at least one stud bump area overlapping the stud pad area in a thickness direction of the display device and including at least one stud bump, and the at least one stud pad electrode overlaps an edge portion of the at least one stud bump.

A semiconductor package includes a semiconductor substrate, a conductive pad on the semiconductor substrate, a redistribution line conductor, a coating insulator, and an aluminum oxide layer. The redistribution line conductor is electrically connected to the conductive pad. The coating insulator covers the redistribution line conductor and partially exposes the redistribution line conductor. The aluminum oxide layer is provided below the coating insulator and extends along a top surface of the redistribution line conductor, and the aluminum oxide layer is in contact with the redistribution line conductor.

A semiconductor package includes a semiconductor substrate, a conductive pad on the semiconductor substrate, a redistribution line conductor, a coating insulator, and an aluminum oxide layer. The redistribution line conductor is electrically connected to the conductive pad. The coating insulator covers the redistribution line conductor and partially exposes the redistribution line conductor. The aluminum oxide layer is provided below the coating insulator and extends along a top surface of the redistribution line conductor, and the aluminum oxide layer is in contact with the redistribution line conductor.

A method includes forming a solder layer on a surface of one or more chips. A lid is positioned over the solder layer on each of the one or more chips. Heat and pressure are applied to melt the solder layer and attach each lid to a corresponding solder layer. The solder layer has a thermal conductivity of ≥50 W/mK.

A method includes forming a solder layer on a surface of one or more chips. A lid is positioned over the solder layer on each of the one or more chips. Heat and pressure are applied to melt the solder layer and attach each lid to a corresponding solder layer. The solder layer has a thermal conductivity of ≥50 W/mK.

A wafer includes a substrate and conductive bumps on a surface of the substrate. In a plan view from a direction perpendicular to the surface of the substrate, the area density of the conductive bumps is higher in a first area than in a second area around the first area in the surface of the substrate. The first area has effective chip areas arranged therein.

A package structure is provided. The package structure includes an interposer substrate including an insulating structure, a conductive pad, a first conducive line, and a first conductive via structure. The package structure includes an electronic device bonded to the conductive pad. The package structure includes a chip structure bonded to the first end portion of the first conductive via structure. The package structure includes a first conductive bump connected between the chip structure and the first end portion of the first conductive via structure. The first end portion protrudes into the first conductive bump and is in direct contact with the first conductive bump.

A package structure is provided. The package structure includes an interposer substrate including an insulating structure, a conductive pad, a first conducive line, and a first conductive via structure. The package structure includes an electronic device bonded to the conductive pad. The package structure includes a chip structure bonded to the first end portion of the first conductive via structure. The package structure includes a first conductive bump connected between the chip structure and the first end portion of the first conductive via structure. The first end portion protrudes into the first conductive bump and is in direct contact with the first conductive bump.

The present disclosure provides a semiconductor structure. The semiconductor structure includes a substrate, a die stack disposed over the substrate, a heat spreader disposed over the substrate and having a surface facing the substrate, and a thermal interface material (TIM) disposed between the die stack and the heat spreader. A bottommost die of the die stack includes a surface exposed from remaining dies of the die stack from a top view perspective; and the TIM is in contact with the exposed surface of the bottommost die and the surface of the heat spreader, and is in contact with a sidewall of at least one of the plurality of dies of the die stack.