A semiconductor device includes an insulating layer, a barrier electrode layer formed on the insulating layer, a Cu electrode layer that includes a metal composed mainly of copper and that is formed on a principal surface of the barrier electrode layer, and an outer-surface insulating film that includes copper oxide, that coats an outer surface of the Cu electrode layer, and that is in contact with the principal surface of the barrier electrode layer.

Reliability of a semiconductor device is improved. A semiconductor device has a base material of insulating material having a through hole, a terminal formed on a lower surface of the base material, and a semiconductor chip mounted on an upper surface of the base material in a face-up manner. The semiconductor device has a conductive member such as a wire, which electrically connects a pad of the semiconductor chip with an exposed surface of the terminal which is exposed from the through hole of the base material, and has a sealing body for sealing the conductive member, inside of the through hole of the base material, and the semiconductor chip. An anchor is provided in a region of the exposed surface of the terminal which is exposed from the through hole of the base material except for a joint portion joined with the conductive member.

A semiconductor apparatus includes elements formed on a substrate, a first insulation layer, a first pad and a second pad arranged on the first insulation layer and located above the elements, and a second insulation layer that is arranged on the side surfaces and upper surfaces of the first pad and the second pad. The second insulation layer includes openings at upper surfaces of the first pad and the second pad. The thickness of the first pad and the second pad is 2 m or more, the thickness of the second insulation layer is less than or equal to of the thickness of the first pad and the second pad, and the distance between the first pad and the second pad is greater than or equal to four times the thickness of the first pad and the second pad.

Integrated circuit (IC) devices are provided including a substrate having a first sidewall defining a first through hole that is a portion of a through-silicon via (TSV) space, an interlayer insulating layer having a second sidewall and a protrusion, wherein the second sidewall defines a second through hole providing another portion of the TSV space and communicating with the first through hole, and the protrusion protrudes toward the inside of the TSV space and defines an undercut region in the first through hole, a TSV structure penetrating the substrate and the interlayer insulating layer and extending through the first through hole and the second through hole, and a via insulating layer surrounding the TSV structure in the first through hole and the second through hole.

A semiconductor device includes a semiconductor substrate, a conductive pad on the semiconductor substrate, and a conductor over the conductive pad. The semiconductor device further has a polymeric material disposed over the semiconductor substrate and surrounding the conductor. The semiconductor device also includes an electric conductive layer between the conductor and the polymeric material. In the semiconductor device, an adhesion strength between the electric conductive layer and the polymeric material is greater than an adhesion strength between the polymeric material and the conductor.

A semiconductor device includes a first-conductivity-type semiconductor layer including an active region in which a transistor having impurity regions is formed and a marginal region surrounding the active region, a second-conductivity-type channel layer formed between the active region and the marginal region and forming a front surface of the semiconductor layer, at least one gate trench formed in the active region to extend from the front surface of the semiconductor layer through the channel layer, a gate insulation film formed on an inner surface of the gate trench, a gate electrode formed inside the gate insulation film in the gate trench, and at least one isolation trench arranged between the active region and the marginal region to surround the active region and extending from the front surface of the semiconductor layer through the channel layer, the isolation trench having a depth equal to that of the gate trench.

Device comprising a ductile layer, a method for making a component comprising a ductile layer and a method for testing a component are disclosed. An embodiment includes an electronic device including a first conductive layer, a ductile layer and a brittle layer between the first conductive layer and the ductile layer.

An isolation device for isolating a first signal of a first circuit from a second circuit disclosed. The isolation device may have a substrate and a plurality of metal layers disposed on the substrate. The plurality of metal layers have a topmost metal layer disposed furthest away from the substrate and a first interconnect metal layer formed nearest to the substrate. The first interconnect metal layer is disposed at a first distance away from the substrate, whereas the topmost metal layer is disposed at an isolation distance away from a first adjacent metal layer formed nearest to the topmost metal layer. A portion of the topmost metal layer forms a first plate. The first plate is configured to transmit the first signal from the first circuit to a second plate that is connected to the second circuit, but electrically isolated from the first plate.

Various semiconductor chip solder bump and underbump metallization (UBM) structures and methods of making the same are disclosed. In one aspect, a method is provided that includes forming a first underbump metallization layer on a semiconductor chip is provided. The first underbump metallization layer has a hub, a first portion extending laterally from the hub, and a spoke connecting the hub to the first portion. A polymer layer is applied to the first underbump metallization layer. The polymer layer includes a first opening in alignment with the hub and a second opening in alignment with the spoke. A portion of the spoke is removed via the second opening to sever the connection between the hub and the first portion.

A semiconductor device including a first material layer adjacent to a second material layer, a first via passing through the first material layer and extending into the second material layer, and a second via extending into the first material layer, where along a common cross section parallel to an interface between the two material layers, the first via has a cross section larger than that of the second via.