The present disclosure relates to semiconductor structures and, more particularly, to a lateral bipolar transistor and methods of manufacture. A structure includes: an intrinsic base comprising semiconductor material in a channel region of a semiconductor substrate; an extrinsic base vertically above the intrinsic base; a raised collector region on the semiconductor substrate and laterally connected to the intrinsic base; and a raised emitter region on the semiconductor substate and laterally connected to the intrinsic base.

In a disclosed semiconductor structure, a lateral bipolar junction transistor (BJT) has a base positioned laterally between a collector and an emitter. The base includes a semiconductor fin with a first portion that extends from a substrate through an isolation layer, a second portion on the first portion, and a third portion on the second portion. The collector and emitter are on the isolation layer and positioned laterally immediately adjacent to opposing sidewalls of the second portion of the semiconductor fin. In some embodiments, the BJT is a standard BJT where the semiconductor fin (i.e., the base), the collector, and the emitter are made of the same semiconductor material. In other embodiments, the BJT is a heterojunction bipolar transistor (HBT) where a section of the semiconductor fin (i.e., the base) is made of a different semiconductor material for improved performance. Also disclosed is a method of forming the structure.

Structures for a bipolar junction transistor and methods of fabricating a structure for a bipolar junction transistor. The structure includes an emitter and a collector comprised of a first two-dimensional material having a first conductivity type, and an intrinsic base comprised of a second two-dimensional material having a second conductivity type different than the first conductivity type. The intrinsic base is laterally positioned between the emitter and the collector.

Structures for a bipolar junction transistor and methods of forming a structure for a bipolar junction transistor. The structure includes an emitter having a raised portion, a collector having a raised portion, and a base having a base layer and an extrinsic base layer stacked with the base layer. The base layer and the extrinsic base layer are positioned in a lateral direction between the raised portion of the emitter and the raised portion of the collector, the base layer has a first width in the lateral direction, the extrinsic base layer has a second width in the lateral direction, and the second width is greater than the first width.

Structures for a bipolar junction transistor and methods of forming a structure for a bipolar junction transistor. The structure includes a collector having a raised portion, an emitter having a raised portion, and a base laterally arranged between the raised portion of the emitter and the raised portion of the collector. The base includes an intrinsic base layer and an extrinsic base layer stacked with the intrinsic base layer. The structure further includes a stress liner positioned to overlap with the raised portion of the collector, the raised portion of the emitter, and the extrinsic base layer.

Embodiments of the disclosure provide a lateral bipolar transistor structure with a superlattice layer and methods to form the same. The bipolar transistor structure may have a semiconductor layer of a first single crystal semiconductor material over an insulator layer. The semiconductor layer includes an intrinsic base region having a first doping type. An emitter/collector (E/C) region may be adjacent the intrinsic base region and may have a second doping type opposite the first doping type. A superlattice layer is on the E/C region of the semiconductor layer. A raised E/C terminal, including a single crystal semiconductor material, is on the superlattice layer. The superlattice layer separates the E/C region from the raised E/C terminal.

The disclosure provides a lateral bipolar transistor structure with a base layer over a semiconductor buffer, and related methods. A lateral bipolar transistor structure may include an emitter/collector (E/C) layer over an insulator. The E/C layer has a first doping type. A semiconductor buffer is adjacent the insulator. A base layer is on the semiconductor buffer and adjacent the E/C layer, the base layer including a lower surface below the E/C layer and an upper surface above the E/C layer. The base layer has a second doping type opposite the first doping type.

A disclosed structure includes a fin-based bipolar junction transistor (BJT) with reduced base resistance. The BJT includes one or more semiconductor fins. Each semiconductor fin has opposing sidewalls, a first width, and a base recess, which extends across the first width through the opposing sidewalls. The BJT includes a base region positioned laterally between collector and emitter regions. The base region includes a base semiconductor layer (e.g., an intrinsic base layer), which fills the base recess and which has a second width greater than the first width such that the base semiconductor layer extends laterally beyond the opposing sidewalls. In a BJT with multiple semiconductor fins, the base recess on each semiconductor fin is filled with a discrete base semiconductor layer. The base region further includes an additional base semiconductor layer (e.g., an extrinsic base layer) covering the base semiconductor layer(s). Also disclosed is a method of forming the structure.

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 within a semiconductor substrate material; a shallow trench isolation structure extending into the semiconductor substrate material and bounding the extrinsic base region; an emitter region adjacent to the shallow trench isolation structure and on a side of the extrinsic base region; and a collector region adjacent to the shallow trench isolation structure and on an opposing side of the extrinsic base region.

Embodiments of the disclosure provide a lateral bipolar transistor on a semiconductor fin and methods to form the same. A bipolar transistor structure according to the disclosure may include a doped semiconductor layer coupled to a base contact. A first semiconductor fin on the doped semiconductor layer may have a first doping type. An emitter/collector (E/C) material may be on a sidewall of an upper portion of the first semiconductor fin. The E/C material has a second doping type opposite the first doping type. The E/C material is coupled to an E/C contact.