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.

Bipolar junction transistor (BJT) structures are provided. A BJT structure includes a semiconductor substrate, a collector region formed in the semiconductor substrate, a base region formed over the collector region, an emitter region formed over the collector region, a ring-shaped shallow trench isolation (STI) region formed in the collector region, and a base dielectric layer formed over the collector region and on opposite sides of the base region. The base dielectric layer is surrounded by an inner side wall of the ring-shaped STI region.

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.

A semiconductor device includes a collector layer, a base layer, and an emitter layer that are disposed above a substrate. An emitter mesa layer is disposed on a partial region of the emitter layer. In a plan view, the base electrode is disposed in or on a region which does not overlap the emitter mesa layer. The base electrode allows base current to flow to the base layer. In the plan view, a first edge forming part of edges of the emitter mesa layer extends in a first direction, and a second edge forming part of edges of the base electrode faces the first edge. A gap between the first edge and the second edge in a terminal portion located in an end portion of the emitter mesa layer in the first direction is wider than a gap in an intermediate portion of the emitter mesa layer.

A semiconductor device includes a first electrode, a second electrode, a first semiconductor region, a second semiconductor region, a third semiconductor region, a fourth semiconductor region, a fifth semiconductor region, a first gate electrode, and a second gate electrode. The first gate electrode faces the second semiconductor region via a first insulating film. The second gate electrode faces the second semiconductor region via a second insulating film and faces the second electrode via a third insulating film contacting the second insulating film. The fifth semiconductor region includes a boundary portion that electrically contacts the second electrode. A distance between an upper surface of the fourth semiconductor region and the first electrode is greater than a distance between the boundary portion and the first electrode.

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.

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 having at least one sidewall with a gradient concentration of semiconductor material; an emitter on a first side of the extrinsic base; and a collector on a second side of the extrinsic base.

The present disclosure relates to semiconductor structures and, more particularly, to a lateral bipolar transistor and methods of manufacture. The structure includes a lateral bipolar junction transistor including an extrinsic base region and a bilayer dielectric spacer on sidewalls of the extrinsic base region, and a p-n junction positioned under the bilayer dielectric spacer between the extrinsic base region and at least an emitter region.

A bipolar transistor including a first collector layer, a second collector layer, a base layer, and an emitter layer is disposed on a substrate. Etching characteristics of the second collector layer are different from etching characteristics of the first collector layer and the base layer. In plan view, an edge of an interface between the first collector layer and the second collector layer is disposed inside an edge of a lower surface of the base layer, and an edge of an upper surface of the second collector layer coincides with the edge of the lower surface of the base layer or is disposed inside the edge of the lower surface of the base layer.

In a described example, a bipolar junction transistor includes a substrate. An emitter region, a base region, and a collector region are each formed in the substrate. A gate-type structure is formed on the substrate between the base region and the emitter region. A contact is coupled to the gate-type structure, and the contact is adapted to be coupled to a source of DC voltage.