A chip structure is provided. The chip structure includes a substrate. The chip structure includes an interconnect layer over the substrate. The chip structure includes a conductive pad over the interconnect layer. The chip structure includes a conductive bump over the conductive pad. The conductive bump has a first portion, a second portion, and a neck portion between the first portion and the second portion, the first portion is between the neck portion and the conductive pad, and the neck portion is narrower than both of the first portion and the second portion. The chip structure includes a support layer over the second portion of the conductive bump. A first composition of the support layer is different from a second composition of the conductive bump. The chip structure includes a solder structure over the support layer.

A method for manufacturing a semiconductor device includes an extra etching process. A bump or a UBM layer is etched additionally in the extra etching process after forming the semiconductor device such that the semiconductor device can conform to the standard of performance and appearance.

Embodiments include semiconductor packages and a method of forming the semiconductor packages. A semiconductor package includes a resist layer disposed on a conductive layer. The semiconductor package also has a bump disposed on the conductive layer. The bump has a top surface and one or more sidewalls. The semiconductor package further includes a surface finish disposed on the top surface and the one or more sidewalls of the bump. The semiconductor package may have the surface finish surround the top surface and sidewalls of the bumps to protect the bumps from Galvanic corrosion. The surface finish may include a nickel-palladium-gold (NiPdAu) surface finish. The semiconductor package may also have a seed disposed on a top surface of the resist layer, and a dielectric disposed on the seed. The dielectric may surround the sidewalls of the bump. The semiconductor package may include the seed to be an electroless copper seed.

A package structure is provided. The package structure includes a first bump structure formed over a substrate, a solder joint formed over the first bump structure and a second bump structure formed over the solder joint. The first bump structure includes a first pillar layer formed over the substrate and a first barrier layer formed over the first pillar layer. The first barrier layer has a first protruding portion which extends away from a sidewall surface of the first pillar layer, and a distance between the sidewall surface of the first pillar layer and a sidewall surface of the first barrier layer is in a range from about 0.5 ?m to about 3 ?m. The second bump structure includes a second barrier layer formed over the solder joint and a second pillar layer formed over the second barrier layer, wherein the second barrier layer has a second protruding portion which extends away from a sidewall surface of the second pillar layer.

Electronic assemblies and methods including the formation of interconnect structures are described. In one embodiment an apparatus includes semiconductor die and a first metal bump on the die, the first metal bump including a surface having a first part and a second part. The apparatus also includes a solder resistant coating covering the first part of the surface and leaving the second part of the surface uncovered. Other embodiments are described and claimed.

Provided is a method of manufacturing a structure that can be easily bonded to a bonding target. The method of manufacturing a structure includes: a conductive layer forming step of forming a conductive layer having conductivity on a part of a surface of an insulating support including at least one surface; a valve metal layer forming step of forming a valve metal layer that covers at least a part of the conductive layer; an anodic oxidation film forming step of forming an anodic oxidation film by performing an anodization treatment on the valve metal layer in a region on the conductive layer using the conductive layer as an electrode; a micropore forming step of forming a plurality of micropores that extend in a thickness direction on the anodic oxidation film; and a filling step of filling the micropores with a conductive material, in which a valve metal layer removing step of removing the valve metal layer having undergone the anodic oxidation film forming step is performed between the anodic oxidation film forming step and the filling step.

A method for fabricating a copper pillar. The method includes forming a layer of titanium tungsten (TiW) over a semiconductor wafer, forming a layer of zinc (Zn) over the layer of TiW, and forming a copper pillar over the via. In addition, the method includes performing an anneal to diffuse the layer of Zn into the copper pillar. A semiconductor device that includes a layer of TiW coupled to a via of a semiconductor wafer and a copper pillar coupled to the layer of TiW. The copper pillar has interdiffused Zn within its bottom portion. Another method for fabricating a copper pillar includes forming a layer of TiW over a semiconductor wafer, forming a first patterned photoresist, forming a layer of Zn, and then removing the first patterned photoresist. The method further includes forming a second patterned photoresist and forming a copper pillar.

The present disclosure relates to the technical field of semiconductor packaging, and discloses a semiconductor structure and a method for forming the same. The method includes: providing a chip, the chip having interconnect structures on its surface, the top of the interconnect structures having an exposed fusible portion; providing a substrate, the substrate having conductive structures on its surface; patterning the conductive structures so that edges of the conductive structures have protrusions; combining the chip with the substrate.

Electronic assemblies and methods including the formation of interconnect structures are described. In one embodiment an apparatus includes semiconductor die and a first metal bump on the die, the first metal bump including a surface having a first part and a second part. The apparatus also includes a solder resistant coating covering the first part of the surface and leaving the second part of the surface uncovered. Other embodiments are described and claimed.

Methods for forming semiconductor structures are provided. The method for forming a semiconductor structure includes forming a metal pad over a first substrate and forming a resist layer having an opening over the metal layer. The method for forming a semiconductor structure further includes forming a conductive pillar and a solder layer over the conductive pillar in the opening of the resist layer and removing the resist layer. The method for forming a semiconductor structure further includes removing a portion of the conductive pillar so that the conductive pillar has an angled sidewall.