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    • 9. 发明授权
    • Replacement gate electrode with multi-thickness conductive metallic nitride layers
    • 具有多层导电金属氮化物层的替代栅电极
    • US08741757B2
    • 2014-06-03
    • US13606702
    • 2012-09-07
    • Hemanth JagannathanVamsi K. Paruchuri
    • Hemanth JagannathanVamsi K. Paruchuri
    • H01L21/336
    • H01L21/28229H01L21/823842H01L21/823871H01L21/845H01L23/485H01L27/092H01L29/518H01L2924/0002H01L2924/00
    • Gate electrodes having different work functions can be provided by providing conductive metallic nitride layers having different thicknesses in a replacement gate scheme. Upon removal of disposable gate structures and formation of a gate dielectric layer, at least one incremental thickness conductive metallic nitride layer is added within some gate cavities, while not being added in some other gate cavities. A minimum thickness conductive metallic nitride layer is subsequently added as a contiguous layer. Conductive metallic nitride layers thus formed have different thicknesses across different gate cavities. A gate fill conductive material layer is deposited, and planarization is performed to provide multiple gate electrode having different conductive metallic nitride layer thicknesses. The different thicknesses of the conductive metallic nitride layers can provide different work functions having a range of about 400 mV.
    • 可以通过在替代栅极方案中提供具有不同厚度的导电金属氮化物层来提供具有不同功函数的栅电极。 在去除一次性栅极结构和形成栅极电介质层时,至少一个增量厚度的导电金属氮化物层被添加到一些栅极空腔内,而不被添加到一些其它栅极腔中。 随后添加最小厚度的导电金属氮化物层作为连续层。 如此形成的导电金属氮化物层在不同的栅腔上具有不同的厚度。 沉积栅极填充导电材料层,并执行平面化以提供具有不同导电金属氮化物层厚度的多个栅电极。 导电金属氮化物层的不同厚度可以提供具有约400mV范围的不同功函数。
    • 10. 发明申请
    • PLANAR AND NON-PLANAR CMOS DEVICES WITH MULTIPLE TUNED THRESHOLD VOLTAGES
    • 具有多个调谐阈值电压的平面和非平面CMOS器件
    • US20100320545A1
    • 2010-12-23
    • US12487202
    • 2009-06-18
    • Hemanth JagannathanVijay NarayananVamsi K. Paruchuri
    • Hemanth JagannathanVijay NarayananVamsi K. Paruchuri
    • H01L27/088H01L21/8236
    • H01L21/823462H01L21/823431H01L21/823821H01L21/823857H01L29/51H01L29/513H01L29/517H01L29/785
    • A semiconductor structure is provided that includes a first device region including a first threshold voltage adjusting layer located atop a semiconductor substrate, a gate dielectric located atop the first threshold voltage adjusting layer, and a gate conductor located atop the gate dielectric. The structure further includes a second device region including a gate dielectric located atop the semiconductor substrate, and a gate conductor located atop the gate dielectric; and a third device region including a gate dielectric located atop the semiconductor substrate, a second threshold voltage adjusting layer located atop the gate dielectric, and a gate conductor located atop the second threshold voltage adjusting layer. In the inventive structure the first threshold voltage adjusting layer includes one of an nFET threshold voltage adjusting material or a pFET threshold voltage adjusting material and the second threshold voltage adjusting layer is the other of the nFET threshold voltage adjusting material or the pFET threshold voltage adjusting material.
    • 提供一种半导体结构,其包括第一器件区域,该第一器件区域包括位于半导体衬底顶部的第一阈值电压调节层,位于第一阈值电压调整层顶部的栅极电介质和位于栅极电介质顶部的栅极导体。 该结构还包括第二器件区域,其包括位于半导体衬底顶部的栅极电介质和位于栅极电介质顶部的栅极导体; 以及第三器件区域,包括位于半导体衬底顶部的栅极电介质,位于栅极电介质顶部的第二阈值电压调节层和位于第二阈值电压调节层顶部的栅极导体。 在本发明的结构中,第一阈值电压调节层包括nFET阈值电压调节材料或pFET阈值电压调节材料之一,第二阈值电压调节层是nFET阈值电压调节材料或pFET阈值电压调节材料中的另一个 。