According to various embodiments, a bipolar transistor structure may include: a substrate; a collector region in the substrate; a base region disposed over the collector region, an emitter region disposed over the base region; a base terminal laterally electrically contacting the base region, wherein the base terminal includes polysilicon.

A diode includes a semiconductor substrate having a surface; a first contact region disposed at the surface of the semiconductor substrate and having a first conductivity type; and a second contact region disposed at the surface, laterally spaced from the first contact region, and having a second conductivity type. The diode also includes a buried region disposed in the semiconductor substrate vertically adjacent to the first contact region, having the second conductivity type, and electrically connected with the second contact region; and an isolation region disposed at the surface between the first and second contact regions. The diode also includes a separation region disposed at the surface between the first contact region and the isolation region, the separation region formed from a portion of a first well region disposed in the semiconductor substrate that extends to the surface.

The present disclosure relates to the field of liquid crystal display, and provides a method for manufacturing a TFT and the TFT thereof. The TFT includes: a base substrate; a gate electrode with a three-dimensional structure formed on the base substrate; a gate insulating layer for completely covering a top face and two side faces of the gate electrode; a semiconductor layer for completely covering a top face and two side faces of the gate insulating layer; a buffer layer for covering a top face and two side faces of the semiconductor layer at two ends of the semiconductor layer; and source and drain electrodes for completely covering a top face and two side faces of the buffer layer, wherein the semiconductor layer of the TFT is of a three-dimensional structure.

A lateral bipolar junction transistor (BJT) magnetic field sensor that includes a layout of two or more adjacent lateral BJT devices. Each BJT includes a semiconductor base region of a first conductivity type doping, a semiconductor emitter region of a second conductivity type doping and laterally contacting the base region; and a first semiconductor collector region of a second conductivity type doping contacting said base region on an opposite side thereof. A second collector region of the second conductivity type doping is also formed contacting the base region on the opposite side thereof in spaced apart relation with the first collector region. The first adjacent lateral BJT device includes the emitter, base and first collector region and the second adjacent lateral BJT device includes the emitter, base and second collector region. The sensor induces a detectable difference in collector current amounts in the presence of an external magnetic field transverse to a plane defined by the layout.

FinFET devices and processes to prevent fin or gate collapse (e.g., flopover) in finFET devices are provided. The method includes forming a first set of trenches in a semiconductor material and filling the first set of trenches with insulator material. The method further includes forming a second set of trenches in the semiconductor material, alternating with the first set of trenches that are filled. The second set of trenches form semiconductor structures which have a dimension of fin structures. The method further includes filling the second set of trenches with insulator material. The method further includes recessing the insulator material within the first set of trenches and the second set of trenches to form the fin structures.

A method for manufacturing a semiconductor device is disclosed. The method comprises: forming a T-shape dummy gate structure on the substrate; removing the T-shape dummy gate structure and retaining a T-shape gate trench; forming a T-shape metal gate structure by filling a metal layer in the T-shape gate trench. According to the semiconductor device manufacturing method disclosed in the present application, the overhang phenomenon and the formation of voids are avoided in the subsequent metal gate filling process by forming a T-shape dummy gate and a T-shape gate trench, and the device performance is improved.

Methods, devices, and systems for using and forming vertically base-connected bipolar transistors have been shown. The vertically base-connected bipolar transistors in the embodiments of the present disclosure are formed with a CMOS fabrication technique that decreases the transistor size while maintaining the high performance characteristics of a bipolar transistor.

A method of forming a semiconductor device comprising a fuse is provided including providing a semiconductor-on-insulator (SOI) structure comprising an insulating layer and a semiconductor layer formed on the insulating layer, forming raised semiconductor regions on the semiconductor layer adjacent to a central portion of the semiconductor layer and performing a silicidation process of the central portion of the semiconductor layer and the raised semiconductor regions to form a silicided semiconductor layer and silicided raised semiconductor regions.

A method for manufacturing a solar-power-generator substrate by cutting out a semiconductor substrate by slicing a semiconductor ingot and then by forming a texture structure on a surface of the semiconductor substrate by performing a surface treatment on the surface of the semiconductor substrate, includes: cleaning including cleaning and removing an organic impurity and a metal impurity adhering to the surface of the semiconductor substrate with a cleaning fluid containing an oxidizing chemical; and etching including removing a damaged layer on a substrate surface generated by the slicing and forming the texture structure on the surface of the semiconductor substrate by performing anisotropic etching on the surface of the semiconductor substrate with an alkaline aqueous solution, the etching being performed subsequent to the cleaning.