Abstract: A a semiconductor component (1a, 1b) having a front side and an opposite rear side and also side surfaces, and also at least one emitter (2a, 2b) and at least one base (3a, 3b), wherein a pn junction (4a, 4b) is formed between emitter (2a, 2b) and base (3a, 3b) and the emitter (2a, 2b) extends parallel to the front and/or rear side. At least one side surface is a passivated separating surface (T), at which a separating surface passivation layer (6a, 6b) is arranged, which has stationary charges having a surface charge density at the separating surface (T) with a magnitude of greater than or equal to 1012 cm-2. A method for singulating a semiconductor component (1a, 1b) having a pn junction is also provided.

Abstract: A a semiconductor component (1a, 1b) having a front side and an opposite rear side and also side surfaces, and also at least one emitter (2a, 2b) and at least one base (3a, 3b), wherein a pn junction (4a, 4b) is formed between emitter (2a, 2b) and base (3a, 3b) and the emitter (2a, 2b) extends parallel to the front and/or rear side. At least one side surface is a passivated separating surface (T), at which a separating surface passivation layer (6a, 6b) is arranged, which has stationary charges having a surface charge density at the separating surface (T) with a magnitude of greater than or equal to 1012 cm-2. A method for singulating a semiconductor component (1a, 1b) having a pn junction is also provided.

Abstract: A semiconductor component having at least one emitter, at least one base, and a pn junction formed between emitter and base, having at least one non-metallic transverse conduction layer for the transverse conduction of majority charge carriers of the emitter. The emitter includes the transverse conduction layer and/or the transverse conduction layer is formed parallel to the emitter and in a manner electrically conductively connected thereto, and having a break side, at which the semiconductor component was singulated. A transverse conduction avoidance region is formed and arranged at the break side such that the transverse conductivity is reduced by at least a factor of 10, wherein the transverse conduction avoidance region has a depth (TQ) in the range of 5 ?m to 500 ?m, in particular 10 ?m to 200 ?m, perpendicular to the break side. A method for singulating a semiconductor component is also provided.

Abstract: A concentrator system having an optical concentrator and a receiver with a carrier substrate and at least one photovoltaic solar cell. The optical concentrator and the receiver are arranged to concentrate incident electromagnetic radiation onto a front side of the solar cell. The solar cell has at least one base and at least one emitter region and at least one metallic base contact structure electrically conductively connected to the base region for external interconnection, and at least one metallic emitter contact structure is electrically conductively connected to the emitter region external contact. The base and emitter contact structures are arranged on the front side of the solar cell. At least one base back-side metallization is provided, and the solar cell has at least one metallic base via structure that extends from the base back-side metallization to the base contact structure for electrically conductive connection by the base via structure.