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    • 2. 发明申请
    • WIRELESS CHIP AND MANUFACTURING METHOD THEREOF
    • 无线芯片及其制造方法
    • US20120322212A1
    • 2012-12-20
    • US13596376
    • 2012-08-28
    • Koji DAIRIKIJunya MARUYAMATomoko TAMURAEiji SUGIYAMAYoshitaka DOZEN
    • Koji DAIRIKIJunya MARUYAMATomoko TAMURAEiji SUGIYAMAYoshitaka DOZEN
    • H01L21/56
    • H01L27/1255H01L29/78621H01L29/78627H01L29/78648
    • It is an object of the present invention to reduce the cost of a wireless chip, further, to reduce the cost of a wireless chip by enabling the mass production of a wireless chip, and furthermore, to provide a downsized and lightweight wireless chip. A wireless chip in which a thin film integrated circuit peeled from a glass substrate or a quartz substrate is formed between a first base material and a second base material is provided according to the invention. As compared with a wireless chip formed from a silicon substrate, the wireless chip according to the invention realizes downsizing, thinness, and lightweight. The thin film integrated circuit included in the wireless chip according to the invention at least has an n-type thin film transistor having an LDD (Lightly Doped Drain) structure, a p-type thin film transistor having a single drain structure, and a conductive layer functioning as an antenna.
    • 本发明的目的在于降低无线芯片的成本,并且通过实现无线芯片的批量生产,进一步降低无线芯片的成本,此外,提供小型化,轻量化的无线芯片。 根据本发明,提供一种其中从玻璃基板或石英基板剥离的薄膜集成电路形成在第一基材和第二基材之间的无线芯片。 与由硅基板形成的无线芯片相比,根据本发明的无线芯片实现了小型化,薄型化和轻量化。 包括在根据本发明的无线芯片中的薄膜集成电路至少具有具有LDD(轻掺杂漏极)结构的n型薄膜晶体管,具有单个漏极结构的p型薄膜晶体管和导电 层作为天线起作用。
    • 3. 发明申请
    • METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE
    • 制造半导体器件的方法
    • US20100200663A1
    • 2010-08-12
    • US12767909
    • 2010-04-27
    • Yoshitaka DOZENEiji SUGIYAMAHisashi OHTANITakuya TSURUME
    • Yoshitaka DOZENEiji SUGIYAMAHisashi OHTANITakuya TSURUME
    • G06K19/07H01L29/12H01L23/538
    • H01L27/1266H01L27/1214H01L27/1255
    • In the present application, is disclosed a method of manufacturing a flexible semiconductor device having an excellent reliability and tolerance to the loading of external pressure. The method includes the steps of: forming a separation layer over a substrate having an insulating surface; forming an element layer including a semiconductor element comprising a non-single crystal semiconductor layer, over the separation layer; forming an organic resin layer over the element layer; providing a fibrous body formed of an organic compound or an inorganic compound on the organic resin layer; heating the organic resin layer; and separating the element layer from the separation layer. This method allows the formation of a flexible semiconductor device having a sealing layer in which the fibrous body is impregnated with the organic resin.
    • 在本申请中,公开了一种制造柔性半导体器件的方法,所述柔性半导体器件对外部压力的加载具有优异的可靠性和耐受性。 该方法包括以下步骤:在具有绝缘表面的基底上形成分离层; 在分离层上形成包括非单晶半导体层的半导体元件的元件层; 在元件层上形成有机树脂层; 在有机树脂层上提供由有机化合物或无机化合物形成的纤维体; 加热有机树脂层; 并将元件层与分离层分离。 该方法允许形成具有密封层的柔性半导体器件,其中纤维体浸渍有机树脂。