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.

Embodiments of the disclosure provide an integrated circuit (IC) structure, including: a p-type substrate, a p-well region within the p-type substrate, and an n-type barrier region between the p-type substrate and the p-well region. The n-type barrier region physically isolates the p-type substrate from the p-well region. A field effect transistor (FET) is positioned above the p-well region, and a buried insulator layer on the upper surface of the p-well region separates the transistor from the p-well region. A first voltage source electrically coupled to the p-well region induces a P-N-P junction across the p-well region, the n-type barrier region, and the p-type substrate.

A semiconductor device includes a bipolar junction transistor (BJT) structure including emitters in a first well having a first conductive type, collectors in respective second wells, the second wells having a second conductive type different from the first conductive type and being spaced apart from each other with the first well therebetween, and bases in the first well and between the emitters and the collectors. The BJT structure includes active regions having different widths that form the emitters, the collectors, and the bases.

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.

A semiconductor device includes a first device including first active regions and first to third structures thereon, and a second device including a second active region, a gate structure intersecting the second active region, and a source/drain region including a lower source/drain region on the second active region having first-type conductivity, an inter-source/drain region insulating layer on the lower source/drain region, and an upper source/drain region on the inter-source/drain region insulating layer and having second-type conductivity. The first structure includes first lower and upper impurity regions. The second structure includes a second lower impurity region having the first-type conductivity, an inter-impurity region insulating layer, and a second upper impurity region having the second-type conductivity. The third structure includes third lower and upper impurity regions having the second-type conductivity, the third upper impurity region having an impurity concentration higher than a that of the third lower impurity region.

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.

A lateral transistor tile is formed with first and second collector regions that longitudinally span first and second sides of the transistor tile; and a base region and an emitter region that are between the first and second collector regions and are both centered on a longitudinal midline of the transistor tile. A base-collector current, a collector-emitter current, and a base-emitter current flow horizontally; and the direction of the base-emitter current is perpendicular to the direction of the base-collector current and the collector-emitter current. Lateral BJT transistors having a variety of layouts are formed from a plurality of the tiles and share common components thereof.

Structures for a bipolar junction transistor and methods of fabricating a structure for a bipolar junction transistor. The structure includes a first terminal having a first raised semiconductor layer, a second terminal having a second raised semiconductor layer, and a base layer positioned laterally between the first raised semiconductor layer and the second raised semiconductor layer. The structure further includes a spacer positioned laterally positioned between the first raised semiconductor layer and the base layer. The spacer includes a dielectric material and an airgap surrounded by the dielectric material.