Embodiments are directed to a method of forming a semiconductor chip package and resulting structures having an annular PSPI region formed under a BLM pad. An annular region is formed under a barrier layer metallurgy (BLM) pad. The annular region includes a photosensitive polyimide (PSPI). A conductive pedestal is formed on a surface of the BLM pad and a solder bump is formed on a surface of the conductive pedestal. The annular PSPI region reduces wafer warpage and ULK peeling stress.

A method includes providing first and second wafers; forming a first device layer in a top portion of the first wafer; forming a second device layer in a top portion of the second wafer; forming a first groove in the first device layer; forming a second groove in the second device layer; bonding the first and second wafers together after at least one of the first and second grooves is formed; and dicing the bonded first and second wafers by a cutting process, wherein the cutting process cuts through the first and second grooves.

A method includes providing first and second wafers; forming a first device layer in a top portion of the first wafer; forming a second device layer in a top portion of the second wafer; forming a first groove in the first device layer; forming a second groove in the second device layer; bonding the first and second wafers together after at least one of the first and second grooves is formed; and dicing the bonded first and second wafers by a cutting process, wherein the cutting process cuts through the first and second grooves.

A semiconductor device includes a silicon layer, a metal silicide layer arranged directly on the silicon layer, and a solder layer arranged directly on the metal silicide layer.

Provided is a semiconductor device including a semiconductor substrate including a main chip area and a scribe lane area adjacent to the main chip area, the scribe lane area including a first region adjacent to the main chip area and a second region adjacent to the first region; an insulating layer disposed on the semiconductor substrate; first embossing structures disposed on a first surface of the insulating layer in a first area of the insulating layer corresponding to the first region; second embossing structures disposed on the first surface of the insulating layer in a second area of the insulating layer corresponding to the second region; and dam structures provided in the first area of the insulating layer at positions corresponding to the first embossing structures, the dam structures extending in a direction perpendicular to a second surface of the insulating layer that is adjacent to the semiconductor substrate.

Provided is a semiconductor device including a semiconductor substrate including a main chip area and a scribe lane area adjacent to the main chip area, the scribe lane area including a first region adjacent to the main chip area and a second region adjacent to the first region; an insulating layer disposed on the semiconductor substrate; first embossing structures disposed on a first surface of the insulating layer in a first area of the insulating layer corresponding to the first region; second embossing structures disposed on the first surface of the insulating layer in a second area of the insulating layer corresponding to the second region; and dam structures provided in the first area of the insulating layer at positions corresponding to the first embossing structures, the dam structures extending in a direction perpendicular to a second surface of the insulating layer that is adjacent to the semiconductor substrate.

A biosensor package structure is provided. The biosensor package structure includes a protection layer and a redistribution layer disposed over the protection layer. The protection layer has a plurality of openings exposing the redistribution layer. The biosensor package structure includes at least one die disposed over the protection layer and the redistribution layer, a plurality of pads disposed on a lower surface of the die, and a plurality of vias disposed between the pads and the redistribution layer. The biosensor package structure includes a dielectric material disposed over the protection layer and the redistribution layer and adjacent to the die, pads and vias. The biosensor package structure further includes at least one biosensing region at the top portion of the die. The top surfaces of the pads are disposed at a level that is lower than the top surface of the biosensing region and higher than the bottom surface of the die.

A biosensor package structure is provided. The biosensor package structure includes a protection layer and a redistribution layer disposed over the protection layer. The protection layer has a plurality of openings exposing the redistribution layer. The biosensor package structure includes at least one die disposed over the protection layer and the redistribution layer, a plurality of pads disposed on a lower surface of the die, and a plurality of vias disposed between the pads and the redistribution layer. The biosensor package structure includes a dielectric material disposed over the protection layer and the redistribution layer and adjacent to the die, pads and vias. The biosensor package structure further includes at least one biosensing region at the top portion of the die. The top surfaces of the pads are disposed at a level that is lower than the top surface of the biosensing region and higher than the bottom surface of the die.

Provided is a semiconductor device including a semiconductor substrate including a main chip area and a scribe lane area adjacent to the main chip area, the scribe lane area including a first region adjacent to the main chip area and a second region adjacent to the first region; an insulating layer disposed on the semiconductor substrate; first embossing structures disposed on a first surface of the insulating layer in a first area of the insulating layer corresponding to the first region; second embossing structures disposed on the first surface of the insulating layer in a second area of the insulating layer corresponding to the second region; and dam structures provided in the first area of the insulating layer at positions corresponding to the first embossing structures, the dam structures extending in a direction perpendicular to a second surface of the insulating layer that is adjacent to the semiconductor substrate.

Provided is a semiconductor device including a semiconductor substrate including a main chip area and a scribe lane area adjacent to the main chip area, the scribe lane area including a first region adjacent to the main chip area and a second region adjacent to the first region; an insulating layer disposed on the semiconductor substrate; first embossing structures disposed on a first surface of the insulating layer in a first area of the insulating layer corresponding to the first region; second embossing structures disposed on the first surface of the insulating layer in a second area of the insulating layer corresponding to the second region; and dam structures provided in the first area of the insulating layer at positions corresponding to the first embossing structures, the dam structures extending in a direction perpendicular to a second surface of the insulating layer that is adjacent to the semiconductor substrate.