Semiconductor devices are provided. The semiconductor devices include a substrate, a first interlayer insulating layer disposed on a front-side of the substrate, a TSV structure passing through the first interlayer insulating layer and the substrate. The TSV structure has a bottom end protruding from a back-side of the substrate, a back-side insulating layer and a back-side passivation layer disposed on the back-side of the substrate, and a bumping pad buried in the back-side insulating layer and the back-side passivation layer and disposed on the bottom end of the TSV structure. The bottom end of the TSV structure protrudes into the back-side bumping pad, and top surfaces of the back-side passivation layer and the back-side bumping pad are coplanar.

Semiconductor devices are provided. The semiconductor devices include a substrate, a first interlayer insulating layer disposed on a front-side of the substrate, a TSV structure passing through the first interlayer insulating layer and the substrate. The TSV structure has a bottom end protruding from a back-side of the substrate, a back-side insulating layer and a back-side passivation layer disposed on the back-side of the substrate, and a bumping pad buried in the back-side insulating layer and the back-side passivation layer and disposed on the bottom end of the TSV structure. The bottom end of the TSV structure protrudes into the back-side bumping pad, and top surfaces of the back-side passivation layer and the back-side bumping pad are coplanar.

A solder connection may be surrounded by a solder locking layer (1210, 2210) and may be recessed in a hole (1230) in that layer. The recess may be obtained by evaporating a vaporizable portion (1250) of the solder connection. Other features are also provided.

A solder connection may be surrounded by a solder locking layer (1210, 2210) and may be recessed in a hole (1230) in that layer. The recess may be obtained by evaporating a vaporizable portion (1250) of the solder connection. Other features are also provided.

The present disclosure provides a semiconductor device, a method of manufacturing the semiconductor device and a mothed of method of manufacturing a semiconductor device assembly. The semiconductor device includes a substrate, a bonding dielectric disposed on the substrate, a first conductive feature disposed in the bonding dielectric, an air gap disposed in the bonding dielectric to separate a portion of a periphery of the first conductive feature from the bonding dielectric, and a second conductive feature including a base disposed in the bonding dielectric and a protrusion stacked on the base.

A method of selectively locating a barrier layer on a substrate includes forming a barrier layer on a surface of the substrate. The barrier layer comprises of a metal element and a non-metal element. The barrier layer may also be formed from a metal element and non-metal element. The method further includes forming an electrically conductive film layer on the barrier layer, and forming a metallic portion in the electrically conductive film layer. The method further includes selectively ablating portions of the barrier layer from the dielectric layer to selectively locate place the barrier layer on the substrate.

A method of selectively locating a barrier layer on a substrate includes forming a barrier layer on a surface of the substrate. The barrier layer comprises of a metal element and a non-metal element. The barrier layer may also be formed from a metal element and non-metal element. The method further includes forming an electrically conductive film layer on the barrier layer, and forming a metallic portion in the electrically conductive film layer. The method further includes selectively ablating portions of the barrier layer from the dielectric layer to selectively locate place the barrier layer on the substrate.

In described examples of an integrated circuit (IC) there is a substrate of semiconductor material having a first region with a first transistor formed therein and a second region with a second transistor formed therein. An isolation trench extends through the substrate and separates the first region of the substrate from the second region of the substrate. An interconnect region having layers of dielectric is disposed on a top surface of the substrate. A dielectric polymer is disposed in the isolation trench and in a layer over the backside surface of the substrate. An edge of the polymer layer is separated from the perimeter edge of the substrate by a space.

In described examples of an integrated circuit (IC) there is a substrate of semiconductor material having a first region with a first transistor formed therein and a second region with a second transistor formed therein. An isolation trench extends through the substrate and separates the first region of the substrate from the second region of the substrate. An interconnect region having layers of dielectric is disposed on a top surface of the substrate. A dielectric polymer is disposed in the isolation trench and in a layer over the backside surface of the substrate. An edge of the polymer layer is separated from the perimeter edge of the substrate by a space.

A semiconductor device according to the present disclosure includes a semiconductor substrate, a first electrode provided on the semiconductor substrate, an insulating layer including a first part provided on an upper surface of the first electrode, a second electrode including a main portion and an eaves portion, the main portion being provided on the upper surface of the first electrode, the eaves portion extending over the first part and solder covering an upper surface of the main portion and a part of an upper surface of the eaves portion wherein the insulating layer includes a second part covering a part of the upper surface of the eaves portion, the part being closer to an end portion of the eaves portion than the part covered by the solder and a third part connecting the first part and the second part and covering the end portion of the eaves portion.