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    • 1. 发明申请
    • OXIDE MATERIAL AND SEMICONDUCTOR DEVICE
    • 氧化物材料和半导体器件
    • US20120153364A1
    • 2012-06-21
    • US13325700
    • 2011-12-14
    • Shunpei YAMAZAKIMotoki NAKASHIMATatsuya HONDA
    • Shunpei YAMAZAKIMotoki NAKASHIMATatsuya HONDA
    • H01L29/78H01B1/00C01B13/00
    • H01L29/7869C01G19/006C01P2002/72H01L29/04H01L29/045H01L29/26H01L29/78696
    • An object is to provide a material suitably used for a semiconductor included in a transistor, a diode, or the like. Another object is to provide a semiconductor device including a transistor in which the condition of an electron state at an interface between an oxide semiconductor film and a gate insulating film in contact with the oxide semiconductor film is favorable. Further, another object is to manufacture a highly reliable semiconductor device by giving stable electric characteristics to a transistor in which an oxide semiconductor film is used for a channel. A semiconductor device is formed using an oxide material which includes crystal with c-axis alignment, which has a triangular or hexagonal atomic arrangement when seen from the direction of a surface or an interface and rotates around the c-axis.
    • 目的是提供适用于晶体管,二极管等中所包含的半导体的材料。 另一个目的是提供一种包括晶体管的半导体器件,其中与氧化物半导体膜接触的氧化物半导体膜和栅极绝缘膜之间的界面处的电子态的条件是有利的。 此外,另一个目的是通过给氧化半导体膜用于沟道的晶体管提供稳定的电特性来制造高度可靠的半导体器件。 使用包括具有c轴对准的晶体的氧化物材料形成半导体器件,当从表面或界面的方向观察时,半导体器件具有三角形或六边形的原子排列,并围绕c轴旋转。
    • 3. 发明申请
    • SEMICONDUCTOR DEVICE
    • 半导体器件
    • US20130020571A1
    • 2013-01-24
    • US13549867
    • 2012-07-16
    • Shunpei YAMAZAKIMasahiro TAKAHASHITatsuya HONDATakehisa HATANO
    • Shunpei YAMAZAKIMasahiro TAKAHASHITatsuya HONDATakehisa HATANO
    • H01L29/12
    • H01L29/7869H01L29/24H01L29/78618
    • Provided is a structure of a transistor, which enables a so-called normally-off switching element, and a manufacturing method thereof. Provided is a structure of a semiconductor device which achieves high-speed response and high-speed operation by improving on characteristics of a transistor, and a manufacturing method thereof. Provided is a highly reliable semiconductor device. In the transistor in which a semiconductor layer, source and drain electrode layers, a gate insulating layer, and a gate electrode layer are stacked in that order. As the semiconductor layer, an oxide semiconductor layer which contains at least four kinds of elements of indium, gallium, zinc, and oxygen, and has a composition ratio (atomic percentage) of indium as twice or more as a composition ratio of gallium and a composition ratio of zinc, is used.
    • 提供了能够实现所谓的常关断开关元件的晶体管的结构及其制造方法。 提供了通过提高晶体管的特性实现高速响应和高速操作的半导体器件的结构及其制造方法。 提供了一种高度可靠的半导体器件。 在其中半导体层,源极和漏极电极层,栅极绝缘层和栅极电极层以该顺序堆叠的晶体管中。 作为半导体层,含有铟,镓,锌和氧中的至少四种元素的氧化物半导体层,铟的组成比(原子百分比)为镓和a的组成比的2倍以上 使用锌的组成比。
    • 9. 发明申请
    • SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF
    • 半导体器件及其制造方法
    • US20070188077A1
    • 2007-08-16
    • US11671716
    • 2007-02-06
    • Tatsuya HONDA
    • Tatsuya HONDA
    • H01J1/62
    • H05B33/145
    • To provide a structure of a light emitting element superior in light emission efficiency to a top surface. A structure where two electrodes are arranged in a surface parallel to a substrate with a light emitting layer interposed therebetween, is provided. An electrode is not disposed below the light emitting layer. Therefore, by providing a reflective film below the light emitting layer, light emission efficiency to a top surface can be improved. For example, a film with a reflective index lower than that of the light emitting layer is provided, and light toward the lower side of the light emitting layer is reflected at an interface of the stack where the refractive index has a gap; accordingly, light emission efficiency to the top surface can be improved. In addition, a metal film with a high reflectance (a reflective metal film with a fixed potential or in a floating state) can be disposed below the light emitting layer.
    • 为了提供发光效率优异的发光元件的结构到顶面。 提供了两个电极布置在平行于基板的表面中的发光层的结构。 电极不设置在发光层的下方。 因此,通过在发光层的下方设置反射膜,能够提高对顶面的发光效率。 例如,提供具有比发光层低的反射率的膜,并且朝向发光层的下侧的光在折射率具有间隙的叠层的界面处反射; 因此,能够提高对顶面的发光效率。 此外,具有高反射率的金属膜(具有固定电位或浮置状态的反射金属膜)可以设置在发光层的下方。