Methods and apparatus for an integrated circuit having with a frontside metal layer on the frontside of the substrate and a backside metal layer on the backside of the substrate. The backside metal layer is deposited onto the backside of the substrate and into the via such that a portion of the backside metal layer is connected to a portion of the frontside metal layer. A diffusion barrier layer is deposited on the backside metal layer located in the via.

Methods and apparatus for an integrated circuit having with a frontside metal layer on the frontside of the substrate and a backside metal layer on the backside of the substrate. The backside metal layer is deposited onto the backside of the substrate and into the via such that a portion of the backside metal layer is connected to a portion of the frontside metal layer. A diffusion barrier layer is deposited on the backside metal layer located in the via.

An electronic device includes a substrate, a first pad disposed on the substrate, a second pad disposed opposite to the first pad, and a conductive particle disposed between the first pad and the second pad. The first pad has a recess, and a part of the conductive particle sinks in the recess.

An electronic device includes a substrate, a first pad disposed on the substrate, a second pad disposed opposite to the first pad, and a conductive particle disposed between the first pad and the second pad. The first pad has a recess, and a part of the conductive particle sinks in the recess.

According to one embodiment, a semiconductor device includes a semiconductor chip, and a die pad. The die pad has a first surface. The semiconductor chip is bonded on the first surface using a paste including a metal particle. A concave structure is provided in the first surface. The concave structure is positioned directly under each of a plurality of sides of the semiconductor chip and extends along each of the plurality of sides.

Disclosed are an array substrate, and a display device, and a method for manufacturing the same. The array substrate includes: a base substrate, and a thin film transistor, a planarization pattern, a bonding pattern, and a conductive structure that are disposed on the base substrate. The thin film transistor, the planarization pattern, and the bonding pattern are laminated in a direction going distally from the base substrate. The planarization pattern is provided with a via and a groove, the conductive structure is disposed in the via, wherein the bonding pattern is conductive and is electrically connected to the thin film transistor by the conductive structure, an orthographic projection of the bonding pattern on the base substrate falls outside an orthographic projection of the groove on the base substrate, and the groove is configured to accommodate an adhesive.

Disclosed are an array substrate, and a display device, and a method for manufacturing the same. The array substrate includes: a base substrate, and a thin film transistor, a planarization pattern, a bonding pattern, and a conductive structure that are disposed on the base substrate. The thin film transistor, the planarization pattern, and the bonding pattern are laminated in a direction going distally from the base substrate. The planarization pattern is provided with a via and a groove, the conductive structure is disposed in the via, wherein the bonding pattern is conductive and is electrically connected to the thin film transistor by the conductive structure, an orthographic projection of the bonding pattern on the base substrate falls outside an orthographic projection of the groove on the base substrate, and the groove is configured to accommodate an adhesive.

Methods and apparatus for an integrated circuit having with a frontside metal layer on the frontside of the substrate and a backside metal layer on the backside of the substrate. The backside metal layer is deposited onto the backside of the substrate and into the via such that a portion of the backside metal layer is connected to a portion of the frontside metal layer. A diffusion barrier layer is deposited on the backside metal layer located in the via.

Methods and apparatus for an integrated circuit having with a frontside metal layer on the frontside of the substrate and a backside metal layer on the backside of the substrate. The backside metal layer is deposited onto the backside of the substrate and into the via such that a portion of the backside metal layer is connected to a portion of the frontside metal layer. A diffusion barrier layer is deposited on the backside metal layer located in the via.

A semiconductor package structure includes a first semiconductor wafer including a first bonding pad. The semiconductor package structure also includes a second semiconductor wafer including a second bonding pad and a third bonding pad. The second bonding pad and the third bonding pad are bonded to the first bonding pad of the first semiconductor wafer. The semiconductor package structure further includes a first via penetrating through the second semiconductor wafer to physically contact the first bonding pad of the first semiconductor wafer. A portion of the first via is disposed between the second bonding pad and the third bonding pad.