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    • 4. 发明授权
    • Semiconductor-on-insulator (SOI) structure with selectively placed sub-insulator layer void(s) and method of forming the SOI structure
    • 绝缘体上半导体(SOI)结构,具有选择性放置的亚绝缘体层空穴和形成SOI结构的方法
    • US08610211B2
    • 2013-12-17
    • US12842146
    • 2010-07-23
    • Toshiharu FurukawaRobert R. RobisonRichard Q. Williams
    • Toshiharu FurukawaRobert R. RobisonRichard Q. Williams
    • H01L27/12
    • H01L29/66477H01L21/02104H01L21/84H01L27/1203H01L29/78648H01L29/78654
    • Disclosed is a semiconductor-on-insulator (SOI) structure having sub-insulator layer void(s) selectively placed in a substrate so that capacitance coupling between a first section of a semiconductor layer and the substrate will be less than capacitance coupling between a second section of the semiconductor layer and the substrate. The first section may contain a first device on an insulator layer and the second section may contain a second device on the insulator layer. Alternatively, the first and second sections may comprise different regions of the same device on an insulator layer. For example, in an SOI field effect transistor (FET), sub-insulator layer voids can be selectively placed in the substrate below the source, drain and/or body contact diffusion regions, but not below the channel region so that capacitance coupling between the these various diffusion regions and the substrate will be less than capacitance coupling between the channel region and the substrate. Also, disclosed is an associated method of forming such an SOI structure.
    • 公开了一种绝缘体半导体(SOI)结构,其具有选择性地放置在衬底中的次绝缘体层空穴,使得半导体层的第一部分与衬底之间的电容耦合将小于第二 半导体层和衬底的截面。 第一部分可以包含绝缘体层上的第一器件,第二部分可以在绝缘体层上包含第二器件。 或者,第一和第二部分可以包括绝缘体层上相同器件的不同区域。 例如,在SOI场效应晶体管(FET)中,可以将子绝缘体层空隙选择性地放置在源极,漏极和/或体接触扩散区域下方的衬底中,但不能在沟道区域下方,使得电容耦合 这些各种扩散区域和衬底将小于沟道区域和衬底之间的电容耦合。 此外,公开了形成这种SOI结构的相关方法。
    • 8. 发明申请
    • Stress Memorization Technique Using Silicon Spacer
    • 应用记忆技术使用硅垫片
    • US20110101506A1
    • 2011-05-05
    • US12608107
    • 2009-10-29
    • Shahid A. ButtViorel OntalusRobert R. Robison
    • Shahid A. ButtViorel OntalusRobert R. Robison
    • H01L29/06H01L21/31H01L23/58
    • H01L29/7847H01L29/6653
    • A structure for memorizing tensile stress in a semiconductor device includes a gate electrode of the semiconductor device; a silicon spacer adjacent to the gate electrode; and a capping layer encapsulating the gate electrode and the silicon spacer, wherein the silicon spacer and capping layer are configured to cause a tensile stress to be memorized in the gate electrode during an annealing process. A method for memorizing tensile stress in a semiconductor device includes forming a silicon spacer adjacent to a gate electrode of the semiconductor device; forming a capping layer over the silicon spacer and the gate electrode; and annealing the semiconductor device, wherein the silicon spacer and capping layer cause a tensile stress to be memorized in the gate electrode during annealing. A disposable silicon spacer is configured to induce a tensile stress in a semiconductor device during a stress memorization technique process.
    • 用于在半导体器件中记忆拉伸应力的结构包括半导体器件的栅电极; 与栅电极相邻的硅间隔物; 以及封装所述栅电极和所述硅间隔物的覆盖层,其中所述硅间隔物和覆盖层被配置为在退火过程期间使拉应力存储在所述栅电极中。 一种用于记忆半导体器件中的拉伸应力的方法包括:形成与所述半导体器件的栅电极相邻的硅间隔物; 在所述硅间隔物和所述栅电极上形成覆盖层; 并退火所述半导体器件,其中所述硅衬垫和封盖层在退火期间使拉应力存储在所述栅电极中。 一次性硅衬垫构造成在应力记忆技术过程中在半导体器件中引起拉伸应力。