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    • 2. 发明申请
    • CMOS STRUCTURE HAVING LOW RESISTANCE CONTACTS AND FABRICATION METHOD
    • 具有低电阻接触和制造方法的CMOS结构
    • US20150243660A1
    • 2015-08-27
    • US14189509
    • 2014-02-25
    • STMICROELECTRONICS, INC.INTERNATIONAL BUSINESS MACHINES CORPORATIONGLOBALFOUNDRIES INC.
    • Qing LIUXiuyu CAIChun-chen YEHRuilong XIE
    • H01L27/092H01L21/285H01L21/02H01L29/45H01L21/8238
    • A method for fabricating a CMOS integrated circuit structure and the CMOS integrated circuit structure. The method includes creating one or more n-type wells, creating one or more p-type wells, creating one or more pFET source-drains embedded in each of the one or more n-type wells, creating one or more nFET source-drains embedded in each of the one or more p-type wells, creating a pFET contact overlaying each of the one or more pFET source-drains, and creating an nFET contact overlaying each of the one or more nFET source-drains. A material of each of the one or more pFET source-drains includes silicon doped with a p-type material; a material of each of the one or more nFET source-drains includes silicon doped with an n-type material; a material of each pFET contact includes nickel silicide; and a material of each nFET contact comprises titanium silicide.
    • 一种制造CMOS集成电路结构的方法和CMOS集成电路结构。 该方法包括产生一个或多个n型阱,产生一个或多个p型阱,产生嵌入在一个或多个n型阱中的每一个中的一个或多个pFET源极漏极,产生一个或多个nFET源极漏极 嵌入在所述一个或多个p型阱中的每一个中,产生覆盖所述一个或多个pFET源极漏极中的每一个的pFET触点,以及产生覆盖所述一个或多个nFET源极漏极中的每一个的nFET触点。 一个或多个pFET源极漏极中的每一个的材料包括掺杂有p型材料的硅; 一个或多个nFET源极漏极中的每一个的材料包括掺杂有n型材料的硅; 每个pFET触点的材料包括硅化镍; 并且每个nFET接触的材料包括硅化钛。
    • 3. 发明申请
    • LARGE AREA CONTACTS FOR SMALL TRANSISTORS
    • 小型晶体管的大面积接触
    • US20170012130A1
    • 2017-01-12
    • US15273778
    • 2016-09-23
    • INTERNATIONAL BUSINESS MACHINES CORPORATIONGLOBALFOUNDRIES, Inc.STMICROELECTRONICS, INC.
    • Xiuyu CAIQing LIURuilong XIEChun-Chen YEH
    • H01L29/78H01L29/66H01L29/417H01L21/02H01L21/8234
    • A large area electrical contact for use in integrated circuits features a non-planar, sloped bottom profile. The sloped bottom profile provides a larger electrical contact area, thus reducing the contact resistance, while maintaining a small contact footprint. The sloped bottom profile can be formed by recessing an underlying layer, wherein the bottom profile can be crafted to have a V-shape, U-shape, crescent shape, or other profile shape that includes at least a substantially sloped portion in the vertical direction. In one embodiment, the underlying layer is an epitaxial fin of a FinFET. A method of fabricating the low-resistance electrical contact employs a thin etch stop liner for use as a hard mask. The etch stop liner, e.g., HfO2, prevents erosion of an adjacent gate structure during the formation of the contact.
    • 用于集成电路的大面积电接触具有非平面,倾斜的底部轮廓。 倾斜的底部轮廓提供更大的电接触面积,从而降低接触电阻,同时保持小的接触足迹。 倾斜的底部轮廓可以通过凹陷下面的层来形成,其中底部轮廓可以被制造成具有V形,U形,月牙形或其它轮廓形状,其在垂直方向上至少包括基本上倾斜的部分 。 在一个实施例中,下层是FinFET的外延翅片。 制造低电阻电接触的方法采用用作硬掩模的薄蚀刻停止衬垫。 蚀刻停止衬垫,例如HfO 2,防止在形成接触期间相邻栅极结构的侵蚀。
    • 9. 发明申请
    • METHOD FOR MAKING SEMICONDUCTOR DEVICE WITH DIFFERENT FIN SETS
    • 用于制造具有不同熔滴的半导体器件的方法
    • US20150333086A1
    • 2015-11-19
    • US14280998
    • 2014-05-19
    • STMICROELECTRONICS, INCGLOBALFOUNDRIES Inc.INTERNATIONAL BUSINESS MACHINES CORPORATION
    • Qing LIUXiuyu CAIRuilong XIEChun-chen YehKejia WangDaniel Chanemougame
    • H01L27/12H01L29/66
    • H01L27/0886H01L21/845H01L27/1211H01L29/0649H01L29/161H01L29/66795
    • A method for making a semiconductor device may include forming, above a substrate, first and second semiconductor regions laterally adjacent one another and each including a first semiconductor material. The first semiconductor region may have a greater vertical thickness than the second semiconductor region and define a sidewall with the second semiconductor region. The method may further include forming a spacer above the second semiconductor region and adjacent the sidewall, and forming a third semiconductor region above the second semiconductor region and adjacent the spacer, with the second semiconductor region including a second semiconductor material different than the first semiconductor material. The method may also include removing the spacer and portions of the first semiconductor material beneath the spacer, forming a first set of fins from the first semiconductor region, and forming a second set of fins from the second and third semiconductor regions.
    • 制造半导体器件的方法可以包括在衬底上方形成彼此横向相邻并且包括第一半导体材料的第一和第二半导体区域。 第一半导体区域可以具有比第二半导体区域更大的垂直厚度并且限定具有第二半导体区域的侧壁。 该方法还可以包括在第二半导体区域的上方形成并邻近侧壁的间隔物,以及在第二半导体区域上方并邻近间隔物形成第三半导体区域,其中第二半导体区域包括与第一半导体材料不同的第二半导体材料 。 该方法还可以包括在间隔物下面移除间隔物和第一半导体材料的部分,从第一半导体区域形成第一组散热片,以及从第二和第三半导体区域形成第二组散热片。