A semiconductor device includes an insulating structure; a plurality of horizontal layers vertically stacked and spaced apart from each other in the insulating structure; a conductive material pattern contacting the insulating structure; and a vertical structure penetrating through the plurality of horizontal layers and extending into the conductive material pattern in the insulating structure. Each of the plurality of horizontal layers comprises a conductive material, the vertical structure comprises a vertical portion and a protruding portion, the vertical portion of the vertical structure penetrates through the plurality of horizontal layers, the protruding portion of the vertical structure extends from the vertical portion into the conductive material pattern, a width of the vertical portion is greater than a width of the protruding portion, and a side surface of the protruding portion is in contact with the conductive material pattern.

A semiconductor device includes an insulating structure; a plurality of horizontal layers vertically stacked and spaced apart from each other in the insulating structure; a conductive material pattern contacting the insulating structure; and a vertical structure penetrating through the plurality of horizontal layers and extending into the conductive material pattern in the insulating structure. Each of the plurality of horizontal layers comprises a conductive material, the vertical structure comprises a vertical portion and a protruding portion, the vertical portion of the vertical structure penetrates through the plurality of horizontal layers, the protruding portion of the vertical structure extends from the vertical portion into the conductive material pattern, a width of the vertical portion is greater than a width of the protruding portion, and a side surface of the protruding portion is in contact with the conductive material pattern.

A semiconductor device includes a chip that includes a mounting surface, a non-mounting surface, and a side wall connecting the mounting surface and the non-mounting surface and has an eaves portion protruding further outward than the mounting surface at the side wall and a metal layer that covers the mounting surface.

A semiconductor device includes a chip that includes a mounting surface, a non-mounting surface, and a side wall connecting the mounting surface and the non-mounting surface and has an eaves portion protruding further outward than the mounting surface at the side wall and a metal layer that covers the mounting surface.

At least one polymer material may be employed to facilitate bonding between the semiconductor dies. Plasma treatment, formation of a blended polymer, or formation of polymer hairs may be employed to enhance bonding. Alternatively, air gaps can be formed by subsequently removing the polymer material to reduce capacitive coupling between adjacent bonding pads.

At least one polymer material may be employed to facilitate bonding between the semiconductor dies. Plasma treatment, formation of a blended polymer, or formation of polymer hairs may be employed to enhance bonding. Alternatively, air gaps can be formed by subsequently removing the polymer material to reduce capacitive coupling between adjacent bonding pads.

An array substrate has a display area and a bonding area located on a side of the display area. The array substrate includes a base, a plurality of first transistors, a plurality of conductive pins and a plurality of conductive electrodes. The plurality of first transistors are disposed on a side of the base and located in the display area; a first transistor includes a first gate, a first source and a first drain. The plurality of conductive pins are disposed on the side of the base and located in the bonding area, and are disposed in a same layer as the first gate. The plurality of conductive electrodes are each disposed on a respective one of surfaces of the plurality of conductive pins away from the base.

A semiconductor device includes a substrate having a plurality of pads on a surface of the substrate, a semiconductor chip that includes a plurality of metal bumps connected to corresponding pads on the substrate, a first resin layer between the surface of the substrate and the semiconductor chip, a second resin layer between the substrate and the semiconductor chip and between the first resin layer and at least one of the metal bumps, and a third resin layer on the substrate and above the semiconductor chip.

A semiconductor device includes a substrate having a plurality of pads on a surface of the substrate, a semiconductor chip that includes a plurality of metal bumps connected to corresponding pads on the substrate, a first resin layer between the surface of the substrate and the semiconductor chip, a second resin layer between the substrate and the semiconductor chip and between the first resin layer and at least one of the metal bumps, and a third resin layer on the substrate and above the semiconductor chip.

A device package includes a first die directly bonded to a second die at an interface, wherein the interface comprises a conductor-to-conductor bond. The device package further includes an encapsulant surrounding the first die and the second die and a plurality of through vias extending through the encapsulant. The plurality of through vias are disposed adjacent the first die and the second die. The device package further includes a plurality of thermal vias extending through the encapsulant and a redistribution structure electrically connected to the first die, the second die, and the plurality of through vias. The plurality of thermal vias is disposed on a surface of the second die and adjacent the first die.