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    • 3. 发明授权
    • Method of crystallizing amorphous semiconductor film, thin-film transistor, semiconductor device, display device, and method of manufacturing the same
    • 结晶非晶半导体膜,薄膜晶体管,半导体器件,显示器件及其制造方法的方法
    • US08384086B2
    • 2013-02-26
    • US12888779
    • 2010-09-23
    • Kazushi YamayoshiToru TakeguchiKazutoshi Aoki
    • Kazushi YamayoshiToru TakeguchiKazutoshi Aoki
    • H01L27/108
    • H01L21/02675H01L21/02532H01L29/04H01L29/66765
    • A method of crystallizing an amorphous semiconductor film, the method comprising the steps of: forming a gate electrode on a transparent insulating substrate; forming a gate insulating film on the transparent insulating substrate and on an upper part of the gate electrode; forming an amorphous semiconductor film on the gate insulating film; forming a light-transmissive insulating film on the amorphous semiconductor film; forming a metal film having an opening on the light-transmissive insulating film; irradiating laser light onto both a region of the light-transmissive insulating film exposed by the opening and the metal film, which is used as a mask for shielding the laser light; and performing laser annealing to make the laser light to be absorbed through the light-transmissive insulating film into a region of the amorphous semiconductor film exposed by the opening, so that the amorphous semiconductor film is heated and converted to a crystalline semiconductor film.
    • 一种使非晶半导体膜结晶的方法,所述方法包括以下步骤:在透明绝缘基板上形成栅电极; 在透明绝缘基板上和栅电极的上部形成栅极绝缘膜; 在栅极绝缘膜上形成非晶半导体膜; 在所述非晶半导体膜上形成透光绝缘膜; 在所述透光绝缘膜上形成具有开口的金属膜; 将激光照射到由开口曝光的透光绝缘膜的区域和用作屏蔽激光的掩模的金属膜; 并且进行激光退火以使激光通过透光绝缘膜吸收到由开口暴露的非晶半导体膜的区域中,使得非晶半导体膜被加热并转换成结晶半导体膜。
    • 5. 发明授权
    • Method of manufacturing semiconductor thin film
    • 制造半导体薄膜的方法
    • US08080450B2
    • 2011-12-20
    • US12596453
    • 2007-12-05
    • Kazuyuki SugaharaNaoki NakagawaShinsuke YuraToru TakeguchiTomoyuki IrizumiKazushi YamayoshiAtsuhiro Sono
    • Kazuyuki SugaharaNaoki NakagawaShinsuke YuraToru TakeguchiTomoyuki IrizumiKazushi YamayoshiAtsuhiro Sono
    • H01L21/84H01L21/00H01L21/205
    • H01L21/02675H01L21/02532H01L27/1285H01L27/1296H01L29/04H01L29/0657
    • On a translucent substrate, an insulating film having a refractive index n and an amorphous silicon film are deposited successively. By irradiating the amorphous silicon film with a laser beam having a beam shape of a band shape extending along a length direction with a wavelength λ, a plurality of times from a side of amorphous silicon film facing the insulating film, while an irradiation position of the laser beam is shifted each of the plurality of times in a width direction of the band shape by a distance smaller than a width dimension of the band shape, a polycrystalline silicon film is formed from the amorphous silicon film. Forming the polycrystalline silicon film forms crystal grain boundaries which extend in the width direction and are disposed at a mean spacing measured along the length direction and ranging from (λ/n)×0.95 to (λ/n)×1.05 inclusive, and crystal grain boundaries which, in a region between crystal grain boundaries adjacent to each other and extending in the width direction, extend in the length direction and are disposed at a mean spacing measured along the width direction and ranging from (λ/n)×0.95 to (λ/n)×1.05 inclusive.
    • 在半透明基板上,依次沉积具有折射率n的绝缘膜和非晶硅膜。 通过从具有波长λ方向的波长形状的波束形状的激光束照射非晶硅膜,从非晶硅膜的与绝缘膜相对的侧面多次, 激光束在带状的宽度方向上多次移动距离小于带状的宽度尺寸的距离,由非晶硅膜形成多晶硅膜。 形成多晶硅膜形成在宽度方向上延伸的晶粒边界,并且以沿长度方向测量的平均间隔设置,范围为(λ/ n)×0.95〜(λ/ n)×1.05, 在彼此相邻并且在宽度方向上延伸的晶粒边界之间的区域中,在长度方向上延伸并沿宽度方向测量的平均间隔设置在(λ/ n)×0.95〜( λ/ n)×1.05(含)。
    • 8. 发明申请
    • TFT SUBSTRATE AND MANUFACTURING METHOD, AND DISPLAY DEVICE WITH THE SAME
    • TFT基板和制造方法,以及与其相关的显示装置
    • US20080283841A1
    • 2008-11-20
    • US11868088
    • 2007-10-05
    • Kazushi YAMAYOSHI
    • Kazushi YAMAYOSHI
    • H01L29/40H01L21/70
    • H01L27/124G02F1/136213H01L27/1255
    • In forming a TFT and a storage capacitance element, whereas sharing with each other the conductive film and the insulation film, which are components of the TFT and the storage capacitance element, contributes to improving production efficiency, it is difficult to obtain a storage capacitance element that is optimized independently of the TFT. A TFT substrate provided with a TFT and a storage-capacitance element according to the present invention is characterized in that the storage-capacitance element is obtained that includes an electrically conductive film and an insulation film each being different from those used in the TFT. Furthermore, in order to form such a structure, a method of manufacturing the TFT substrate is provided that achieves both flexibility in design and efficiency in production without need for addition of any photolithography processes.
    • 在形成TFT和辅助电容元件的同时,作为TFT和存储电容元件的一部分的导电膜和绝缘膜彼此共享有助于提高生产效率,难以获得存储电容元件 独立于TFT进行优化。 根据本发明的设置有TFT和存储电容元件的TFT基板的特征在于,获得包括导电膜和绝缘膜的存储电容元件,其与TFT中使用的不同。 此外,为了形成这样的结构,提供了一种制造TFT基板的方法,其既可实现设计灵活性又能实现生产效率,而无需添加任何光刻工艺。
    • 10. 发明授权
    • Active matrix substrate and liquid crystal device
    • 有源矩阵基板和液晶装置
    • US08310613B2
    • 2012-11-13
    • US12987347
    • 2011-01-10
    • Kazushi Yamayoshi
    • Kazushi Yamayoshi
    • G02F1/136
    • H01L29/78633G09G3/3648G09G2300/0417G09G2300/0426G09G2300/0443G09G2320/0214H01L27/12H01L27/124H01L29/78678
    • An active matrix substrate includes a plurality of pairs of a TFT including a gate electrode and a gate insulating film formed on an insulating substrate, a channel layer made of at least one of a crystalline semiconductor film and an amorphous semiconductor film, and a source electrode and a drain electrode, and a pixel electrode arranged in an array. The channel layer is formed within a formation area of the gate electrode, the source electrode and the drain electrode are formed within a formation area of the channel layer, a source line is formed above the gate insulating film in a position spaced from the gate electrode, and the source line is connected to the source electrode through a connection line made of an oxide conductive film formed on top of the source electrode and extending from the top of the source electrode.
    • 有源矩阵基板包括多个TFT,其包括形成在绝缘基板上的栅电极和栅绝缘膜,由晶体半导体膜和非晶半导体膜中的至少一个制成的沟道层,以及源电极 漏电极和排列成阵列的像素电极。 沟道层形成在栅电极的形成区域内,源电极和漏电极形成在沟道层的形成区域内,源极线形成在栅极绝缘膜上方与栅电极间隔开的位置 并且源极线通过由形成在源电极的顶部并从源电极的顶部延伸的由氧化物导电膜形成的连接线连接到源电极。