An integrated circuit structure includes a first semiconductor fin extending horizontally in a length direction and including a bottom portion and a top portion above the bottom portion, a bottom transistor associated with the bottom portion of the first semiconductor fin, a top transistor above the bottom transistor and associated with the top portion of the first semiconductor fin, and a first vertical diode. The first vertical diode includes: a bottom region associated with at least the bottom portion of the first semiconductor fin, the bottom region including one of n-type and p-type dopant; a top region associated with at least the top portion of the first semiconductor fin, the top region including the other of n-type and p-type dopant; a bottom terminal electrically connected to the bottom region; and a top terminal electrically connected to the top region at the top portion of the first semiconductor fin.

Disclosed is a semiconductor structure that includes an asymmetric lateral bipolar junction transistor (BJT). The BJT includes an emitter, a base, a collector extension and a collector arranged side-by-side (i.e., laterally) across a semiconductor layer. The emitter, collector and collector extension have a first type conductivity with the collector extension having a lower conductivity level than either the emitter or the collector. The base has a second type conductivity that is different from the first type conductivity. With such a lateral configuration, the BJT can be easily integrated with CMOS devices on advanced SOI technology platforms. With such an asymmetric configuration and, particularly, given the inclusion of the collector extension but not an emitter extension, the BJT can achieve a relatively high collector-emitter breakdown voltage (V.sub.br-CEO) without a significant risk of leakage currents at high voltages. Also disclosed are method embodiments for forming such a semiconductor structure.

A structure for a lateral bipolar junction transistor is provided. The structure comprising an emitter including a first concentration of a first dopant. A collector including a second concentration of the first dopant, the first concentration of the first dopant may be different from the second concentration of the first dopant. An intrinsic base may be laterally arranged between the emitter and the collector, and an extrinsic base region may be above the intrinsic base. An emitter extension may be arranged adjacent to the emitter, whereby the emitter extension laterally extends under a portion of the extrinsic base region. A halo region may be arranged adjacent to the emitter extension, whereby the halo region laterally extends under another portion of the extrinsic base region.

The present disclosure relates to semiconductor structures and, more particularly, to bipolar transistors and methods of manufacture. The structure includes: a base region composed of a semiconductor on insulator material; an emitter region above the base region; and a collector region under the base region and within a cavity of a buried insulator layer.

Embodiments of the disclosure provide a lateral bipolar transistor structure with inner and outer spacers, and related methods. A lateral bipolar transistor structure may have an emitter/collector (E/C) layer over an insulator. The E/C layer has a first doping type. A first base layer is on the insulator and adjacent the E/C layer. The first base layer has a second doping type opposite the first doping type. A second base layer is on the first base layer and having the second doping type. A dopant concentration of the second base layer is greater than a dopant concentration of the first base layer. An inner spacer is on the E/C layer and adjacent the second base layer. An outer spacer is on the E/C layer and adjacent the inner spacer.

Structures for a bipolar junction transistor and methods of forming a structure for a bipolar junction transistor. The structure includes a dielectric layer having a cavity, a first semiconductor layer on the dielectric layer, a collector including a portion on the first semiconductor layer, an emitter including a portion on the first semiconductor layer, and a second semiconductor layer that includes a first section in the cavity and a second section. The second section of the second semiconductor layer is laterally positioned between the portion of the collector and the portion of the emitter.

Structures for a bipolar junction transistor and methods of forming a structure for a bipolar junction transistor. The structure includes a first terminal having a first raised semiconductor layer having a top surface and a side surface, a second terminal having a second raised semiconductor layer, and a base layer positioned in a lateral direction between the first raised semiconductor layer of the first terminal and the second raised semiconductor layer of the second terminal. The structure further includes a contact positioned to overlap with the top surface and the side surface of the first raised semiconductor layer.

Structures for a bipolar junction transistor and methods of fabricating a structure for a bipolar junction transistor. The structure includes a collector having a first semiconductor layer, an emitter having a second semiconductor layer, an intrinsic base including nanosheet channel layers positioned with a spaced arrangement in a layer stack, and a base contact laterally positioned between the first and second semiconductor layers. Each nanosheet channel layer extends laterally from the first semiconductor layer to the second semiconductor layer. Sections of the base contact are respectively positioned in spaces between the nanosheet channel layers. The structure further includes first spacers laterally positioned between the sections of the base contact and the first semiconductor layer, and second spacers laterally positioned between the sections of the base contact and the second semiconductor layer.

The present disclosure relates to semiconductor structures and, more particularly, to a lateral bipolar transistor and methods of manufacture. The structure includes: an extrinsic base region composed of semiconductor material; an emitter region on a first side of the extrinsic base region; a collector region on a second side of the extrinsic base region; and an extrinsic base contact wrapping around the semiconductor material of the extrinsic base region.

The present disclosure relates to semiconductor structures and, more particularly, to lateral bipolar transistors and methods of manufacture. The structure includes: an extrinsic base comprising semiconductor material; an intrinsic base comprising semiconductor material which is located below the extrinsic base; a polysilicon emitter on a first side of the extrinsic base; a raised collector on a second side of the extrinsic base; and sidewall spacers on the extrinsic base which separate the extrinsic base from the polysilicon emitter and the raised collector.