An integrated circuit includes a substrate having at least one first domain and at least one second domain that is different from the at least one first domain. A trap-rich region is provided in the substrate at the locations of the at least one second domain only. Locations of the at least one first domain do not include the trap-rich region.

An integrated circuit includes a substrate having at least one first domain and at least one second domain that is different from the at least one first domain. A trap-rich region is provided in the substrate at the locations of the at least one second domain only. Locations of the at least one first domain do not include the trap-rich region.

In some embodiments, the present disclosure relates to an integrated chip that includes a silicon-on-insulator (SOI) substrate having an insulator layer between an active layer and a base layer. A semiconductor device and a shallow trench isolation (SIT) structure are disposed on a frontside of the SOI substrate. A semiconductor core structure continuously surrounds the semiconductor device and extends through the STI structure and towards a backside of the SOI substrate. A first insulator liner portion and a second insulator liner portion surround a first outermost sidewall and a second outermost sidewall of the semiconductor core structure. The first and second insulator liner portions respectively have a first protrusion and a second protrusion. The first and second protrusions are arranged between the STI structure and the insulator layer of the SOI substrate.

An electronic circuit including a semiconductor substrate having first and second opposite surfaces and electrically-insulating trenches. Each trench includes at least first and second insulating portions made of a first insulating material, extending from the first surface to the second surface, first and second intermediate portions, extending from the first surface to the second surface, made of a first filling material, and a third insulating portion extending from the first surface to the second surface, the first insulating portion being in contact with the first intermediate portion, the second insulating portion being in contact with the second intermediate portion, and the third insulating portion being interposed between the intermediate portions.

The present disclosure relates to semiconductor structures and, more particularly, to sealed cavity structures having a planar surface and methods of manufacture. The structure includes a cavity formed in a substrate material and which has a curvature at its upper end. The cavity is covered with epitaxial material that has an upper planar surface.

The present disclosure relates to isolation structures for semiconductor devices and, more particularly, to dual trench isolation structures having a deep trench and a shallow trench for electrically isolating integrated circuit (IC) components formed on a semiconductor substrate. The semiconductor isolation structure of the present disclosure includes a semiconductor substrate, a shallow trench isolation (STI) disposed over the semiconductor substrate, a deep trench isolation (DTI) with sidewalls extending from a bottom surface of the STI and terminating in the semiconductor substrate, a multilayer dielectric lining disposed on the sidewalls of the DTI, the multilayer dielectric lining including an etch stop layer positioned between inner and outer dielectric liners, and a filler material disposed within the DTI.

An apparatus includes a first trench formed in a semiconductor layer. The first trench has a first width and a first depth. A second trench is formed in the semiconductor layer. The second trench has a second width and a second depth. The first width is wider than the second width. A buried dielectric layer is disposed between a bottom semiconductor surface of the semiconductor layer and a substrate. The buried dielectric layer contacts a first bottom surface of the first trench. A liner dielectric is formed on the first bottom surface and a first sidewall of the first trench. A first layer is formed on the liner dielectric. A second layer is formed on the first layer and extends to the substrate through an opening formed on the first bottom surface.

Various embodiments of the present application are directed towards an integrated circuit (IC) chip comprising a front-end-of-line (FEOL) through semiconductor-on-substrate via (TSV), as well as a method for forming the IC chip. In some embodiments, a semiconductor layer overlies a substrate. The semiconductor layer may, for example, be or comprise a group III-V semiconductor and/or some other suitable semiconductor(s). A semiconductor device is on the semiconductor layer, and a FEOL layer overlies the semiconductor device. The FEOL TSV extends through the FEOL layer and the semiconductor layer to the substrate at a periphery of the IC chip. An intermetal dielectric (IMD) layer overlies the FEOL TSV and the FEOL layer, and an alternating stack of wires and vias is in the IMD layer.

In some embodiments, the present disclosure relates to an integrated chip that includes a semiconductor device, a polysilicon isolation structure, and a first and second insulator liner. The semiconductor device is disposed on a frontside of a substrate. The polysilicon isolation structure continuously surrounds the semiconductor device and extends from the frontside of the substrate towards a backside of the substrate. The first insulator liner and second insulator liner respectively surround a first outermost sidewall and a second outermost sidewall of the polysilicon isolation structure. The substrate includes a monocrystalline facet arranged between the first and second insulator liners. A top of the monocrystalline facet is above bottommost surfaces of the polysilicon isolation structure, the first insulator liner, and the second insulator liner.

In some embodiments, the present disclosure relates to an integrated chip that includes a silicon-on-insulator (SOI) substrate having an insulator layer between an active layer and a base layer. A semiconductor device and a shallow trench isolation (SIT) structure are disposed on a frontside of the SOI substrate. A semiconductor core structure continuously surrounds the semiconductor device and extends through the STI structure and towards a backside of the SOI substrate. A first insulator liner portion and a second insulator liner portion surround a first outermost sidewall and a second outermost sidewall of the semiconductor core structure. The first and second insulator liner portions respectively have a first protrusion and a second protrusion. The first and second protrusions are arranged between the STI structure and the insulator layer of the SOI substrate.