A semiconductor device is provided. The semiconductor device includes: a first substrate; an active pattern extending on the first substrate; a gate electrode extending on the active pattern; a source/drain region on the active pattern; a first interlayer insulating layer on the source/drain region; a sacrificial layer on the first substrate; a lower wiring layer on a lower surface of the sacrificial layer; a through via trench extending to the lower wiring layer by passing through the first interlayer insulating layer and the sacrificial layer in a vertical direction; a through via inside the through via trench and connected to the lower wiring layer; a recess inside the sacrificial layer and protruding from a sidewall of the through via trench in the second horizontal direction; and a through via insulating layer extending along the sidewall of the through via trench and into the recess.

A microelectronic structure including a nanosheet transistor that includes a source/drain. A frontside contact that includes a first section located on the frontside of the source/drain and a via section that extends to the backside of the nanosheet transistor. A shallow isolation layer located around a portion of the via section the first frontside contact. A backside metal line located on a backside surface of the via section and located on a backside surface of the shallow trench isolation layer. A dielectric liner located along a sidewall of the backside metal line and located along a bottom surface of the backside metal line.

A structure includes a substrate having a frontside and a backside. A first electrode is in a first insulator layer and is adjacent to the frontside of the substrate. The first electrode is part of a redistribution layer (RDL). A second electrode is between the substrate and the first electrode. A dielectric-filled trench in the substrate is under the first electrode and the second electrode, the dielectric-filled trench may extend fully to the backside of the substrate. The structure provides a galvanic isolation that exhibits less parasitic capacitance to the substrate from the lower electrode.