An integrated circuit includes a first chip bonded to a second chip. The first chip includes gate all around transistors on a substrate. The first chip includes backside conductive vias extending through the substrate to the gate all around transistors. The second chip includes electronic circuitry electrically connected to the transistors by the backside conductive vias.

Provided is a semiconductor device including a plurality of substrates that is stacked, each of the substrates including a semiconductor substrate and a multi-layered wiring layer on the semiconductor substrate, the semiconductor substrate having a circuit with a predetermined function formed thereon. Bonding surfaces between at least two substrates among the plurality of substrates have an electrode junction structure in which electrodes on the respective bonding surfaces are in direct contact with each other. The electrode junction structure is for electrical connection between the two substrates. In at least one of the two substrates, at least one of the electrode constituting the electrode junction structure or a via for connection of the electrode to a wiring line in the multi-layered wiring layer has a structure in which a protective film for prevention of diffusion of an electrically-conductive material constituting the electrode and the via is inside the electrically-conductive material.

[Object] To enable reliability to be further improved in a semiconductor device.

[Solution] Provided is a semiconductor device including a plurality of substrates that is stacked, each of the substrates including a semiconductor substrate and a multi-layered wiring layer stacked on the semiconductor substrate, the semiconductor substrate having a circuit with a predetermined function formed thereon. Bonding surfaces between at least two substrates among the plurality of substrates have an electrode junction structure in which electrodes formed on the respective bonding surfaces are joined in direct contact with each other, the electrode junction structure being a structure for electrical connection between the two substrates. In at least one of the two substrates, at least one of the electrode constituting the electrode junction structure or a via for connection of the electrode to a wiring line in the multi-layered wiring layer has a structure in which a protective film for prevention of diffusion of an electrically-conductive material constituting the electrode and the via is embedded inside the electrically-conductive material.

In one aspect, an active electronically scanned array (AESA) tile includes a radiator structure and oxide-bonded semiconductor wafers attached to the radiator structure and comprising a radio frequency (RF) manifold and a beam former. An RF signal path through the oxide-bonded wafers comprises a first portion that propagates toward the beam former and a second portion that propagates parallel to the beam former.

Embodiments of the disclosure provide an interconnect structure including: a first die having a first surface and an opposing second surface, and a groove within first surface of the first die; an adhesive dielectric layer mounted to the opposing second surface of the first die; a second die having a first surface mounted to the adhesive dielectric layer, and an opposing second surface, wherein the adhesive dielectric layer is positioned directly between the first and second dies; and a through-semiconductor via (TSV) including a first TSV metal extending from the first surface of the first die to the adhesive dielectric layer, and a second TSV metal substantially aligned with the first TSV metal and extending from the adhesive dielectric layer to the opposing second surface of the second die, wherein the TSV includes a metal-to-metal bonding interface between the first and second TSV metals within the adhesive dielectric layer.

A semiconductor device according to an embodiment includes a low-adhesion film, a pair of substrates, and a metal electrode. The low-adhesion film has lower adhesion to metal than a semiconductor oxide film. The pair of substrates is provided with the low-adhesion film interposed therebetween. The metal electrode passes through the low-adhesion film and connects the pair of substrates, and includes, between the pair of substrates, a part thinner than parts embedded in the pair of substrates. A portion of the metal electrode embedded in one substrate is provided with a gap interposed between the portion and the low-adhesion film on the other substrate.

A semiconductor device according to an embodiment includes a low-adhesion film, a pair of substrates, and a metal electrode. The low-adhesion film has lower adhesion to metal than a semiconductor oxide film. The pair of substrates is provided with the low-adhesion film interposed therebetween. The metal electrode passes through the low-adhesion film and connects the pair of substrates, and includes, between the pair of substrates, a part thinner than parts embedded in the pair of substrates. A portion of the metal electrode embedded in one substrate is provided with a gap interposed between the portion and the low-adhesion film on the other substrate.

The present disclosure relates to semiconductor structures and, more particularly, to wafer bond interconnect structures and methods of manufacture. The structure includes: a plurality of sub-pixels each comprising a contact plate; and redundant connections at opposite corners of each sub-pixel on a backside of the contact plate.

In one aspect, an active electronically scanned array (AESA) tile includes a radiator structure and oxide-bonded semiconductor wafers attached to the radiator structure and comprising a radio frequency (RF) manifold and a beam former. An RF signal path through the oxide-bonded wafers comprises a first portion that propagates toward the beam former and a second portion that propagates parallel to the beam former.

The present disclosure relates to semiconductor structures and, more particularly, to wafer bond interconnect structures and methods of manufacture. The structure includes: a plurality of sub-pixels each comprising a contact plate; and redundant connections at opposite corners of each sub-pixel on a backside of the contact plate.