Provided is a semiconductor chip mounting tape. The semiconductor chip mounting tape comprises a tape base film including first and second surfaces opposite to each other; and an adhesive film including a third surface facing the first surface of the tape base film, and a fourth surface opposite to the third surface, wherein the adhesive film includes a plurality of voids therein, and the fourth surface of the adhesive film may be adhered to a semiconductor chip.

A process and resultant article of manufacture made by such process comprises forming through vias needed to connect a bottom device layer in a bottom silicon wafer to the one in the top device layer in a top silicon wafer comprising a silicon-on-insulator (SOI) wafer. Through vias are disposed in such a way that they extend from the middle of the line (MOL) interconnect of the top wafer to the buried oxide (BOX) layer of the SOI wafer with appropriate insulation provided to isolate them from the SOI device layer.

Provided is a semiconductor chip mounting tape. The semiconductor chip mounting tape comprises a tape base film including first and second surfaces opposite to each other; and an adhesive film including a third surface facing the first surface of the tape base film, and a fourth surface opposite to the third surface, wherein the adhesive film includes a plurality of voids therein, and the fourth surface of the adhesive film may be adhered to a semiconductor chip.

A process and resultant article of manufacture made by such process comprises forming through vias needed to connect a bottom device layer in a bottom silicon wafer to the one in the top device layer in a top silicon wafer comprising a silicon-on-insulator (SOI) wafer. Through vias are disposed in such a way that they extend from the middle of the line (MOL) interconnect of the top wafer to the buried oxide (BOX) layer of the SOI wafer with appropriate insulation provided to isolate them from the SOI device layer.

An article of manufacture is formed by preparing a first silicon-on-insulator (SOI) wafer with first bonding pads at a first top or back-end-of-line (BEOL) surface thereof, preparing a second SOI wafer with second bonding pads at a second BEOL surface thereof, and attaching the first and second SOI wafers by bonding their bonding pads together, thereby producing a sandwiched wafer with first and second bottom or front-end-of-line (FEOL) surfaces facing outward and with first and second BEOL surfaces facing each other near the midline of the sandwiched wafer. The first SOI wafer then is prepared for packaging by first removing the silicon substrate from the first FEOL surface to reveal a buried oxide (BOX) layer, then fabricating interconnects atop the BOX layer and forming input output pads atop the interconnects.

A process includes forming through vias needed to connect a bottom device layer in a bottom silicon wafer to the one in the top device layer in a top silicon wafer including a silicon-on-insulator (SOI) wafer. Through vias are disposed in such a way that they extend from the middle of the line (MOL) interconnect of the top wafer to the buried oxide (BOX) layer of the SOI wafer with appropriate insulation provided to isolate them from the SOI device layer. A resultant article of manufacture is also disclosed.

A process and resultant article of manufacture made by such process comprises forming through vias needed to connect a bottom device layer in a bottom silicon wafer to the one in the top device layer in a top silicon wafer comprising a silicon-on-insulator (SOI) wafer. Through vias are disposed in such a way that they extend from the middle of the line (MOL) interconnect of the top wafer to the buried oxide (BOX) layer of the SOI wafer with appropriate insulation provided to isolate them from the SOI device layer.

A process and resultant article of manufacture made by such process comprises forming through vias needed to connect a bottom device layer in a bottom silicon wafer to the one in the top device layer in a top silicon wafer comprising a silicon-on-insulator (SOI) wafer. Through vias are disposed in such a way that they extend from the middle of the line (MOL) interconnect of the top wafer to the buried oxide (BOX) layer of the SOI wafer with appropriate insulation provided to isolate them from the SOI device layer.

A process and resultant article of manufacture made by such process comprises forming through vias needed to connect a bottom device layer in a bottom silicon wafer to the one in the top device layer in a top silicon wafer comprising a silicon-on-insulator (SOI) wafer. Through vias are disposed in such a way that they extend from the middle of the line (MOL) interconnect of the top wafer to the buried oxide (BOX) layer of the SOI wafer with appropriate insulation provided to isolate them from the SOI device layer.

An apparatus and a method for chip-to-wafer integration is provided. The apparatus includes a coating module, a bonding module and a cleaning module. The method includes the steps of placing at least one chip on a wafer to form an integrated product, forming a film on the integrated product, such that the integrated product is substantially fluid-tight, and exerting a predetermined positive pressure on the film during permanent bonding of the at least one chip to the wafer. The method further includes the step of removing the film from the integrated product after permanent bonding of the at least one chip to the wafer.