摘要:
In a semiconductor device including a laminate of a first insulating layer, a crystalline semiconductor layer, and a second insulating layer, characteristics of the device are improved by determining its structure in view of stress balance. In the semiconductor device including an active layer of the crystalline semiconductor layer having tensile stress on a substrate, tensile stress is given to the first insulating layer formed to be in close contact with a surface of the semiconductor layer at a substrate side, and compressive stress is given to the second insulating layer formed to be in close contact with a surface of the semiconductor layer at a side opposite to the substrate side.
摘要:
In a semiconductor device including a laminate of a first insulating layer, a crystalline semiconductor layer, and a second insulating layer, characteristics of the device are improved by determining its structure in view of stress balance. In the semiconductor device including an active layer of the crystalline semiconductor layer having tensile stress on a substrate, tensile stress is given to the first insulating layer formed to be in close contact with a surface of the semiconductor layer at a substrate side, and compressive stress is given to the second insulating layer formed to be in close contact with a surface of the semiconductor layer at a side opposite to the substrate side.
摘要:
In a semiconductor device including a laminate of a first insulating layer, a crystalline semiconductor layer, and a second insulating layer, characteristics of the device are improved by determining its structure in view of stress balance. In the semiconductor device including an active layer of the crystalline semiconductor layer having tensile stress on a substrate, tensile stress is given to the first insulating layer formed to be in close contact with a surface of the semiconductor layer at a substrate side, and compressive stress is given to the second insulating layer formed to be in close contact with a surface of the semiconductor layer at a side opposite to the substrate side.
摘要:
An improved image sensor is described. The sensor includes a photosensitive semiconductor device comprises a glass substrate, a light blocking electrode formed on the glass substrate, a photosensitive semiconductor film formed on the electrode, a transparent electrode. A light window is opened through the semiconductor device. On the light path including the light window, an uneven interface is formed in order that light rays incident on the sensor is modified and reachs the photosensitive semiconductor after reflection on an original.
摘要:
An improved image sensor made of photosensitive semiconductor materials with a number of pixels each including an n-type semiconductor layer, a p-type semiconductor layer and an intrinsic semiconductor layer disposed between the n-type and p-type layers. The n-type and p-type layers are made from a semiconductor material having a high resistivity. The high resistivity of the n-type layer and the p-type layer functions to prevent crosstalk currents from passing between the pixels.
摘要:
There is provided a semiconductor device having TFTs whose thresholds can be controlled.There is provided a semiconductor device including a plurality of TFTs having a back gate electrode, a first gate insulation film, a semiconductor active layer a second gate insulation film and a gate electrode, which are formed on a substrate, wherein an arbitrary voltage is applied to the back gate electrode.
摘要:
There is provided a semiconductor device having TFTs whose thresholds can be controlled. There is provided a semiconductor device including a plurality of TFTs having a back gate electrode, a first gate insulation film, a semiconductor active layer a second gate insulation film and a gate electrode, which are formed on a substrate, wherein an arbitrary voltage is applied to the back gate electrode.
摘要:
A semiconductor device includes a gate electrode; a gate insulating film over the gate electrode; an oxide semiconductor film in contact with the gate insulating film and including a channel formation region which overlaps with the gate electrode; a source electrode and a drain electrode over the oxide semiconductor film; and an oxide insulating film over the oxide semiconductor film, the source electrode, and the drain electrode. The source electrode and the drain electrode each include a first metal film having an end portion at the end of the channel formation region, a second metal film over the first metal film and containing copper, and a third metal film over the second metal film. The second metal film is formed on the inner side than the end portion of the first metal film.
摘要:
It is an object to provide a method for manufacturing a semiconductor device that has a semiconductor element including a film in which mixing impurities is suppressed. It is another object to provide a method for manufacturing a semiconductor device with high yield. In a method for manufacturing a semiconductor device in which an insulating film is formed in contact with a semiconductor layer provided over a substrate having an insulating surface with use of a plasma CVD apparatus, after an inner wall of a reaction chamber of the plasma CVD apparatus is coated with a film that does not include an impurity to the insulating film, a substrate is introduced in the reaction chamber, and the insulating film is deposited over the substrate. As a result, an insulating film in which the amount of impurities is reduced can be formed.
摘要:
There is provided a semiconductor device having TFTs whose thresholds can be controlled. There is provided a semiconductor device including a plurality of TFTs having a back gate electrode, a first gate insulation film, a semiconductor active layer a second gate insulation film and a gate electrode, which are formed on a substrate, wherein an arbitrary voltage is applied to the back gate electrode.