A semiconductor device is provided. The semiconductor device includes a substrate, a source region, a drain region, a filed plate and a gate electrode. The source region is of a first conductivity type located at a first side within the substrate. The drain region is of the first conductive type located at a second side within the substrate opposite to the first side. The field plate is located over the substrate and between the source region and the drain region. A portion of the gate electrode is located over the field plate.

A semiconductor device includes a substrate and an isolation feature. The isolation feature includes a first portion in the substrate, and a second portion extending along a top surface of the substrate, wherein a bottom surface of the second portion is below the top surface of the substrate. The semiconductor device further includes a gate structure over the substrate, wherein the gate structure extends along a top surface of the second portion of the isolation feature.

A semiconductor device includes a channel structure, a dielectric structure, a gate structure, a first conductive structure, and a second conductive structure. The channel structure has a top surface, a bottom surface, and a sidewall extending from the top surface to the bottom surface. The first conductive structure is disposed on the bottom surface of the channel structure and includes a body portion and at least one convex portion, and a top surface of the convex portion is higher than a top surface of the body portion. The second conductive structure is disposed on the top surface of the channel structure and includes a body portion and at least one convex portion, and a bottom surface of the body portion is higher than a bottom surface of the convex portion.

A capacitive element of an integrated circuit includes first and second electrodes. The first electrode is formed by a first electrically conductive layer located above a semiconductor well doped with a first conductivity type. The second electrode is formed by a second electrically conductive layer located above the first electrically conductive layer of the semiconductor well. The second electrode is further formed by a doped surface region within the semiconductor well that is heavily doped with a second conductivity type opposite the first conductivity type, wherein the doped surface region is located under the first electrically conductive layer. An inter-electrode dielectric area electrically separates the first electrode and the second electrode.

A miniaturized transistor is provided. A transistor with low parasitic capacitance is provided. A transistor having high frequency characteristics is provided. A transistor having a large amount of on-state current is provided. A semiconductor device including the transistor is provided. A semiconductor device with high integration is provided. A novel capacitor is provided. The capacitor includes a first conductor, a second conductor, and an insulator. The first conductor includes a region overlapping with the second conductor with the insulator provided therebetween. The first conductor includes tungsten and silicon. The insulator includes a silicon oxide film that is formed by oxidizing the first conductor.

A method of making a semiconductor device includes etching a substrate to define a trench in a substrate, wherein the trench is adjacent to an active region in the substrate, and etching the substrate includes patterning a mask. The method further includes partially removing the mask to expose a first portion of the active region, wherein the first portion extends a first distance from the trench. The method further includes depositing a dielectric material to fill the trench and cover the first portion of the active region. The method further includes removing the mask, wherein the removing of the mask includes maintaining the dielectric material covering the first portion of the active region. The method further includes forming a gate structure over the active region and over the dielectric material.

A semiconductor device includes a semiconductor substrate, an insulating film disposed above the semiconductor substrate, a temperature detecting element disposed on the insulating film, and an anode side region and a cathode side region respectively located on an anode side and a cathode side of the temperature detecting element. The anode side region or the cathode side region includes one or more capacitance elements, and a sum of capacitance values of the capacitance elements is larger than a capacitance value of the temperature detecting element.

A capacitive element of an integrated circuit includes first and second electrodes. The first electrode is formed by a first electrically conductive layer located above a semiconductor well doped with a first conductivity type. The second electrode is formed by a second electrically conductive layer located above the first electrically conductive layer of the semiconductor well. The second electrode is further formed by a doped surface region within the semiconductor well that is heavily doped with a second conductivity type opposite the first conductivity type, wherein the doped surface region is located under the first electrically conductive layer. An inter-electrode dielectric area electrically separates the first electrode and the second electrode.

A capacitor structure includes a first metal structure, a second metal structure, and a dielectric material. The second metal structure is disposed below the first metal structure. Each of the first metal structure and the second metal structure includes at least three conductive components. The conductive components have a fish-bone shape. The dielectric material is disposed in a plurality of isolators of the first metal structure, in a plurality of isolators of the second metal structure, and between the first metal structure and the second metal structure.

Examples of an integrated circuit with a capacitor structure and a method for forming the integrated circuit are provided herein. In some examples, an integrated circuit device includes a substrate and a trench isolation material disposed on the substrate. An isolation structure is disposed on the trench isolation material. A first electrode disposed on the isolation structure, and a second electrode disposed on the isolation structure. A capacitor dielectric is disposed on the isolation structure between the first electrode and the second electrode. In some such examples, the isolation structure includes a first hard mask disposed on the trench isolation material, a dielectric disposed on the first hard mask, and a second hard mask disposed on the dielectric.