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    • 1. 发明申请
    • GATE DIELECTRIC FIRST REPLACEMENT GATE PROCESSES AND INTEGRATED CIRCUITS THEREFROM
    • 门式电介质第一次更换门电路及集成电路
    • US20110031557A1
    • 2011-02-10
    • US12908140
    • 2010-10-20
    • Brian K. KirkpatrickFreidoon MehradShaofeng Yu
    • Brian K. KirkpatrickFreidoon MehradShaofeng Yu
    • H01L27/092H01L21/8238
    • H01L21/823842H01L29/513H01L29/66545H01L29/66553H01L29/6656
    • A method for fabricating a CMOS integrated circuit (IC) and ICs therefrom includes the steps of providing a substrate having a semiconductor surface, wherein the semiconductor surface has PMOS regions for PMOS devices and NMOS regions for NMOS devices. A gate dielectric layer is formed on the PMOS regions and NMOS regions. An original gate electrode layer is formed on the gate dielectric layer. A gate masking layer is applied on the gate electrode layer. Etching is used to pattern the original gate electrode layer to simultaneously form original gate electrodes for the PMOS devices and NMOS devices. Source and drain regions are formed for the PMOS devices and NMOS devices. The original gate electrodes are removed for at least one of the PMOS devices and NMOS devices to form trenches using an etch process, such as a hydroxide-based solution, wherein at least a portion and generally substantially all of the gate dielectric layer is preserved. A metal comprising replacement gates is formed in the trenches, and fabrication of the IC is completed.
    • 一种用于制造CMOS集成电路(IC)及其IC的方法包括提供具有半导体表面的衬底的步骤,其中半导体表面具有用于PMOS器件的PMOS区域和用于NMOS器件的NMOS区域。 栅极电介质层形成在PMOS区域和NMOS区域上。 在栅极电介质层上形成原始栅电极层。 栅极掩模层被施加在栅极电极层上。 蚀刻用于对原始栅极电极层进行图案化以同时形成用于PMOS器件和NMOS器件的原始栅电极。 为PMOS器件和NMOS器件形成源极和漏极区域。 为了至少一个PMOS器件和NMOS器件去除原始栅电极,以使用诸如基于氢氧化物的溶液的蚀刻工艺形成沟槽,其中保留了栅极电介质层的至少一部分和基本上全部的栅极电介质层。 在沟槽中形成包括置换栅极的金属,并且完成IC的制造。
    • 3. 发明申请
    • PROCESS METHOD TO FULLY SALICIDE (FUSI) BOTH N-POLY AND P-POLY ON A CMOS FLOW
    • 在CMOS流程上充分浸出(FUSI)N-POLY和P-POLY的方法
    • US20090050976A1
    • 2009-02-26
    • US11844832
    • 2007-08-24
    • Freidoon MehradFrank S. Johnson
    • Freidoon MehradFrank S. Johnson
    • H01L21/3205H01L29/78
    • H01L21/823835
    • An improved method of forming a fully silicided (FUSI) gate in both NMOS and PMOS transistors of the same MOS device is disclosed. In one example, the method comprises forming a first silicide in at least a top portion of a gate electrode of the PMOS devices and not over the NMOS devices. The method further comprises concurrently forming a second silicide in at least a top portion of a gate electrode of both the NMOS and PMOS devices, and forming a FUSI gate silicide of the gate electrodes. In one embodiment, the thickness of the second silicide is greater than the first silicide by an amount which compensates for a difference in the rates of silicide formation between the NMOS and PMOS devices.
    • 公开了在相同MOS器件的NMOS和PMOS晶体管中形成完全硅化(FUSI)栅极的改进方法。 在一个示例中,该方法包括在PMOS器件的栅电极的至少顶部部分中形成第一硅化物,而不是在NMOS器件上形成。 该方法还包括在NMOS和PMOS器件的栅电极的至少顶部中同时形成第二硅化物,以及形成栅电极的FUSI栅极硅化物。 在一个实施例中,第二硅化物的厚度大于第一硅化物的量,该量补偿了NMOS和PMOS器件之间的硅化物形成速率的差异。
    • 4. 发明授权
    • Process method to facilitate silicidation
    • 硅化方法
    • US07448395B2
    • 2008-11-11
    • US10894374
    • 2004-07-19
    • Jiong-Ping LuFreidoon MehradLindsey HallVivian LiuClint MontgomeryScott Johnson
    • Jiong-Ping LuFreidoon MehradLindsey HallVivian LiuClint MontgomeryScott Johnson
    • B08B6/00C25F1/00C25F3/30C25F5/00
    • H01L21/28518H01L21/02046H01L21/0206H01L21/28052H01L29/665
    • The present invention substantially removes dry etch residue from a dry plasma etch process 110 prior to depositing a cobalt layer 124 on silicon substrate and/or polysilicon material. Subsequently, one or more annealing processes 128 are performed that cause the cobalt to react with the silicon thereby forming cobalt silicide regions. The lack of dry etch residue remaining between the deposited cobalt and the underlying silicon permits the cobalt silicide regions to be formed substantially uniform with a desired silicide sheet and contact resistance. The dry etch residue is substantially removed by performing a first cleaning operation 112 and then an extended cleaning operation 114 that includes a suitable cleaning solution. The first cleaning operation typically removes some, but not all of the dry etch residue. The extended cleaning operation 114 is performed at a higher temperature and/or for an extended duration and substantially removes dry etch residue remaining after the first cleaning operation 112.
    • 本发明在将钴层124沉积在硅衬底和/或多晶硅材料上之前基本上从干等离子体蚀刻工艺110去除干蚀刻残留物。 随后,进行一个或多个退火工艺128,其使钴与硅反应,从而形成硅化钴区域。 残留在沉积的钴和下面的硅之间的干蚀刻残留物的缺乏允许用期望的硅化物片和接触电阻基本上均匀地形成硅化钴区域。 通过执行第一清洁操作112,然后进行包括合适的清洁溶液的延长清洁操作114,基本上去除了干蚀刻残留物。 第一次清洁操作通常去除一些但不是全部的干蚀刻残留物。 延长的清洁操作114在更高的温度和/或延长的持续时间内进行,并且基本上去除了在第一清洁操作112之后残留的干蚀刻残留物。
    • 6. 发明申请
    • Process method to optimize fully silicided gate (FUSI) thru PAI implant
    • 通过PAI植入物优化完全硅化栅(FUSI)的工艺方法
    • US20080206973A1
    • 2008-08-28
    • US11710769
    • 2007-02-26
    • Frank Scott JohnsonFreidoon MehradJiong-Ping Lu
    • Frank Scott JohnsonFreidoon MehradJiong-Ping Lu
    • H01L21/3205
    • H01L21/26506H01L21/28097H01L29/4975H01L29/665H01L29/6656H01L29/7833
    • An improved method of forming a fully silicided (FUSI) gate in both NMOS and PMOS transistors of the same MOS device is disclosed. In one example, the method comprises forming oxide and nitride etch-stop layers over a top portion of the gates of the NMOS and PMOS transistors, forming a blocking layer over the etch-stop layer, planarizing the blocking layer down to the etch-stop layer over the gates, and removing a portion of the etch-stop layer overlying the gates. The method further includes implanting a preamorphizing species into the exposed gates to amorphize the gates, thereby permitting uniform silicide formation thereafter at substantially the same rates in the NMOS and PMOS transistors. The method may further comprise removing any remaining oxide or blocking layers, forming the gate silicide over the gates to form the FUSI gates, and forming source/drain silicide in moat areas of the NMOS and PMOS transistors.
    • 公开了在相同MOS器件的NMOS和PMOS晶体管中形成完全硅化(FUSI)栅极的改进方法。 在一个示例中,该方法包括在NMOS和PMOS晶体管的栅极的顶部部分上形成氧化物和氮化物蚀刻停止层,在蚀刻停止层上形成阻挡层,将阻挡层平坦化到蚀刻停止 并且去除覆盖在栅极上的蚀刻停止层的一部分。 该方法还包括将预变质物质注入到暴露的栅极中以使栅极非晶化,从而在NMOS和PMOS晶体管中以基本上相同的速率允许均匀的硅化物形成。 该方法还可以包括去除任何剩余的氧化物或阻挡层,在栅极上形成栅极硅化物以形成FUSI栅极,以及在NMOS和PMOS晶体管的护环区域中形成源极/漏极硅化物。
    • 7. 发明授权
    • Forming a trench to define one or more isolation regions in a semiconductor structure
    • 形成沟槽以限定半导体结构中的一个或多个隔离区
    • US06905943B2
    • 2005-06-14
    • US10703387
    • 2003-11-06
    • Juanita DeLoachFreidoon MehradBrian M. TrentmanTroy A. Yocum
    • Juanita DeLoachFreidoon MehradBrian M. TrentmanTroy A. Yocum
    • H01L21/762H01L21/76
    • H01L21/76232
    • In one embodiment, a method for forming a semiconductor structure in manufacturing a semiconductor device includes providing a pad layer on a surface of a substrate, providing a nitride layer on the pad layer, and providing a sacrificial oxide layer on the nitride layer. In a first etching step, at least the sacrificial oxide and nitride layers are etched to define opposing substantially vertical surfaces of at least the sacrificial oxide and nitride layers. In a second etching step, the nitride layer is etched such that the opposing substantially vertical surfaces of the nitride layer are recessed from the opposing substantially vertical surfaces of the sacrificial oxide layer, the sacrificial oxide layer substantially preventing the nitride layer from decreasing in thickness as a result of the etching of the nitride layer. In a third etching step, the substrate is etched to form a trench extending into the substrate for purposes of defining one or more isolation regions adjacent the trench.
    • 在一个实施例中,在制造半导体器件中形成半导体结构的方法包括在衬底的表面上提供焊盘层,在焊盘层上提供氮化物层,并在氮化物层上提供牺牲氧化物层。 在第一蚀刻步骤中,至少牺牲氧化物层和氮化物层被蚀刻以限定至少牺牲氧化物层和氮化物层的相对的基本垂直的表面。 在第二蚀刻步骤中,蚀刻氮化物层,使得氮化物层的相对的基本上垂直的表面从牺牲氧化物层的相对的基本上垂直的表面凹陷,牺牲氧化物层基本上防止氮化物层的厚度减小 蚀刻氮化物层的结果。 在第三蚀刻步骤中,蚀刻衬底以形成延伸到衬底中的沟槽,用于限定与沟槽相邻的一个或多个隔离区域。