公开(公告)号：US08598009B2

公开(公告)日：2013-12-03

申请号：US13456633

申请日：2012-04-26

Applicant: Brian J. Greene ,  William K. Henson ,  Judson R. Holt ,  Michael D. Steigerwalt ,  Kuldeep Amarnath ,  Rohit Pal ,  Johan W. Weijtmans

Inventor： Brian J. Greene ,  William K. Henson ,  Judson R. Holt ,  Michael D. Steigerwalt ,  Kuldeep Amarnath ,  Rohit Pal ,  Johan W. Weijtmans

IPC: H01L21/8222

CPC classification number: H01L29/66636 ,  H01L21/3247 ,  H01L29/665 ,  H01L29/6653 ,  H01L29/66545 ,  H01L29/7848

Abstract: A low energy surface is formed by a high temperature anneal of the surfaces of trenches on each side of a gate stack. The material of the semiconductor layer reflows during the high temperature anneal such that the low energy surface is a crystallographic surface that is at a non-orthogonal angle with the surface normal of the semiconductor layer. A lattice mismatched semiconductor material is selectively grown on the semiconductor layer to fill the trenches, thereby forming embedded lattice mismatched semiconductor material portions in source and drain regions of a transistor. The embedded lattice mismatched semiconductor material portions can be in-situ doped without increasing punch-through. Alternately, a combination of intrinsic selective epitaxy and ion implantation can be employed to form deep source and drain regions.

Abstract translation: 低能量表面通过栅极堆叠的每一侧的沟槽表面的高温退火形成。 半导体层的材料在高温退火期间回流，使得低能表面是与半导体层的表面法线成非正交角的结晶表面。 在半导体层上选择性地生长晶格失配的半导体材料以填充沟槽，从而在晶体管的源极和漏极区域中形成嵌入的晶格失配的半导体材料部分。 嵌入的晶格不匹配的半导体材料部分可以原位掺杂而不增加穿通。 或者，可以采用固有选择性外延和离子注入的组合来形成深的源极和漏极区域。

公开(公告)号：US20130040430A1

公开(公告)日：2013-02-14

申请号：US13552722

申请日：2012-07-19

Applicant: Rohit Pal ,  Stephan-Detlef Kronholz

Inventor： Rohit Pal ,  Stephan-Detlef Kronholz

IPC: H01L21/8234

CPC classification number: H01L29/1054 ,  H01L21/823807 ,  H01L21/823857 ,  H01L29/665 ,  H01L29/6656 ,  H01L29/66651 ,  H01L29/7833 ,  H01L29/7848 ,  Y02P80/30

Abstract: The present disclosure provides manufacturing techniques in which sophisticated high-k metal gate electrode structures may be formed in an early manufacturing stage on the basis of a selectively applied threshold voltage adjusting semiconductor alloy. In order to reduce the surface topography upon patterning the deposition mask while still allowing the usage of well-established epitaxial growth recipes developed for silicon dioxide-based hard mask materials, a silicon nitride base material may be used in combination with a surface treatment. In this manner, the surface of the silicon nitride material may exhibit a silicon dioxide-like behavior, while the patterning of the hard mask may be accomplished on the basis of highly selective etch techniques.

Abstract translation: 本公开提供了其中可以在选择性施加的阈值电压调节半导体合金的基础上在早期制造阶段中形成复杂的高k金属栅电极结构的制造技术。 为了在图案化沉积掩模的同时减少表面形貌，同时仍允许使用为基于二氧化硅的硬掩模材料开发的良好的外延生长配方，可以将氮化硅基材与表面处理组合使用。 以这种方式，氮化硅材料的表面可以表现出二氧化硅的行为，而硬掩模的图案化可以基于高选择性蚀刻技术来实现。

公开(公告)号：US08294211B2

公开(公告)日：2012-10-23

申请号：US12687610

申请日：2010-01-14

Applicant: Bin Yang ,  Rohit Pal ,  Michael Hargrove

Inventor： Bin Yang ,  Rohit Pal ,  Michael Hargrove

IPC: H01L29/786

CPC classification number: H01L27/12 ,  H01L21/84 ,  H01L21/845 ,  H01L23/485 ,  H01L27/1211

Abstract: A method of fabricating a semiconductor device with back side conductive plugs is provided here. The method begins by forming a gate structure overlying a semiconductor-on-insulator (SOI) substrate. The SOI substrate has a support layer, an insulating layer overlying the support layer, an active semiconductor region overlying the insulating layer, and an isolation region outboard of the active semiconductor region. A first section of the gate structure is formed overlying the isolation region and a second section of the gate structure is formed overlying the active semiconductor region. The method continues by forming source/drain regions in the active semiconductor region, and thereafter removing the support layer from the SOI substrate. Next, the method forms conductive plugs for the gate structure and the source/drain regions, where each of the conductive plugs passes through the insulating layer.

Abstract translation: 此处提供制造具有背面导电插头的半导体器件的方法。 该方法通过形成覆盖绝缘体上半导体（SOI）衬底的栅极结构开始。 SOI衬底具有支撑层，覆盖在支撑层上的绝缘层，覆盖绝缘层的有源半导体区域和有源半导体区域外侧的隔离区域。 栅极结构的第一部分形成在隔离区域的上方，栅极结构的第二部分形成在有源半导体区域的上方。 该方法通过在有源半导体区域中形成源极/漏极区域继续，然后从SOI衬底去除支撑层。 接下来，该方法形成用于栅极结构和源极/漏极区域的导电插塞，其中每个导电插塞穿过绝缘层。

公开(公告)号：US20120235245A1

公开(公告)日：2012-09-20

申请号：US13422148

申请日：2012-03-16

Applicant: Rohit Pal ,  Stephan-Detlef Kronholz

Inventor： Rohit Pal ,  Stephan-Detlef Kronholz

IPC: H01L27/088 ,  H01L21/762 ,  H01L21/336

CPC classification number: H01L21/823481 ,  H01L21/76232 ,  H01L21/823878

Abstract: When forming sophisticated semiconductor devices on the basis of high-k metal gate electrode structures, which are to be provided in an early manufacturing stage, the encapsulation of the sensitive gate materials may be improved by reducing the depth of or eliminating recessed areas that are obtained after forming sophisticated trench isolation regions. To this end, after completing the STI module, an additional fill material may be provided so as to obtain the desired surface topography and also preserve superior material characteristics of the trench isolation regions.

Abstract translation: 当在早期制造阶段提供的高k金属栅极电极结构的基础上形成复杂的半导体器件时，可以通过减少获得的凹陷区域的深度或消除凹陷区域来改善敏感栅极材料的封装 形成复杂的沟槽隔离区。 为此，在完成STI模块之后，可以提供另外的填充材料以获得所需的表面形貌并且还保持沟槽隔离区域的优良的材料特性。

公开(公告)号：US08222673B2

公开(公告)日：2012-07-17

申请号：US12795683

申请日：2010-06-08

Applicant: Brian J. Greene ,  William K. Henson ,  Judson R. Holt ,  Michael D. Steigerwalt ,  Kuldeep Amarnath ,  Rohit Pal ,  Johan W. Weijtmans

Inventor： Brian J. Greene ,  William K. Henson ,  Judson R. Holt ,  Michael D. Steigerwalt ,  Kuldeep Amarnath ,  Rohit Pal ,  Johan W. Weijtmans

IPC: H01L21/02

CPC classification number: H01L29/66636 ,  H01L21/3247 ,  H01L29/665 ,  H01L29/6653 ,  H01L29/66545 ,  H01L29/7848

Abstract: A low energy surface is formed by a high temperature anneal of the surfaces of trenches on each side of a gate stack. The material of the semiconductor layer reflows during the high temperature anneal such that the low energy surface is a crystallographic surface that is at a non-orthogonal angle with the surface normal of the semiconductor layer. A lattice mismatched semiconductor material is selectively grown on the semiconductor layer to fill the trenches, thereby forming embedded lattice mismatched semiconductor material portions in source and drain regions of a transistor. The embedded lattice mismatched semiconductor material portions can be in-situ doped without increasing punch-through. Alternately, a combination of intrinsic selective epitaxy and ion implantation can be employed to form deep source and drain regions.

Abstract translation: 低能量表面通过栅极堆叠的每一侧的沟槽表面的高温退火形成。 半导体层的材料在高温退火期间回流，使得低能表面是与半导体层的表面法线成非正交角的结晶表面。 在半导体层上选择性地生长晶格失配的半导体材料以填充沟槽，从而在晶体管的源极和漏极区域中形成嵌入的晶格失配的半导体材料部分。 嵌入的晶格不匹配的半导体材料部分可以原位掺杂而不增加穿通。 或者，可以采用固有选择性外延和离子注入的组合来形成深的源极和漏极区域。

公开(公告)号：US08124515B2

公开(公告)日：2012-02-28

申请号：US12469418

申请日：2009-05-20

Applicant: Man Fai Ng ,  Rohit Pal

Inventor： Man Fai Ng ,  Rohit Pal

IPC: H01L21/28 ,  H01L21/321 ,  H01L21/3213 ,  H01L21/3215

CPC classification number: H01L29/4966 ,  H01L21/28088 ,  H01L21/32155 ,  H01L21/322 ,  H01L29/7833

Abstract: Improved semiconductor devices comprising metal gate electrodes are formed with reduced performance variability by reducing the initial high dopant concentration at the top portion of the silicon layer overlying the metal layer. Embodiments include reducing the dopant concentration in the upper portion of the silicon layer, by implanting a counter-dopant into the upper portion of the silicon layer, removing the high dopant concentration portion and replacing it with undoped or lightly doped silicon, and applying a gettering agent to the upper surface of the silicon layer to form a thin layer with the gettered dopant, which layer can be removed or retained.

Abstract translation: 通过降低覆盖在金属层上的硅层顶部的初始高掺杂剂浓度，形成包括金属栅电极的改进的半导体器件，具有降低的性能可变性。 实施例包括通过将反掺杂剂注入硅层的上部来去除高掺杂剂浓度部分并用未掺杂的或轻掺杂的硅代替它来减少硅层上部的掺杂剂浓度，并施加吸气 剂到硅层的上表面以形成具有吸收的掺杂剂的薄层，该层可以被去除或保留。

公开(公告)号：US20100295103A1

公开(公告)日：2010-11-25

申请号：US12469418

申请日：2009-05-20

Applicant: Man Fai Ng ,  Rohit Pal

Inventor： Man Fai Ng ,  Rohit Pal

IPC: H01L29/78 ,  H01L21/336

CPC classification number: H01L29/4966 ,  H01L21/28088 ,  H01L21/32155 ,  H01L21/322 ,  H01L29/7833

Abstract: Improved semiconductor devices comprising metal gate electrodes are formed with reduced performance variability by reducing the initial high dopant concentration at the top portion of the silicon layer overlying the metal layer. Embodiments include reducing the dopant concentration in the upper portion of the silicon layer, by implanting a counter-dopant into the upper portion of the silicon layer, removing the high dopant concentration portion and replacing it with undoped or lightly doped silicon, and applying a gettering agent to the upper surface of the silicon layer to form a thin layer with the gettered dopant, which layer can be removed or retained.

Abstract translation: 通过降低覆盖在金属层上的硅层顶部的初始高掺杂剂浓度，形成包括金属栅电极的改进的半导体器件，具有降低的性能可变性。 实施例包括通过将反掺杂剂注入硅层的上部来去除高掺杂剂浓度部分并用未掺杂的或轻掺杂的硅代替它来减少硅层上部的掺杂剂浓度，并施加吸气 剂到硅层的上表面以形成具有吸收的掺杂剂的薄层，该层可以被去除或保留。

公开(公告)号：US20100289089A1

公开(公告)日：2010-11-18

申请号：US12775555

申请日：2010-05-07

Applicant: Richard Carter ,  Martin Trentzsch ,  Sven Beyer ,  Rohit Pal

Inventor： Richard Carter ,  Martin Trentzsch ,  Sven Beyer ,  Rohit Pal

IPC: H01L27/088 ,  H01L21/28 ,  H01L21/20 ,  H01L21/336

CPC classification number: H01L21/823462 ,  H01L21/28176 ,  H01L21/28194 ,  H01L29/513 ,  H01L29/517

Abstract: Sophisticated gate electrode structures may be formed by providing a cap layer including a desired species that may diffuse into the gate dielectric material prior to performing a treatment for stabilizing the sensitive gate dielectric material. In this manner, complex high-k metal gate electrode structures may be formed on the basis of reduced temperatures and doses for a threshold adjusting species compared to conventional strategies.

Abstract translation: 复杂的栅极电极结构可以通过在进行用于稳定敏感栅极介电材料的处理之前提供包括可能扩散到栅极电介质材料中的所需物质的覆盖层来形成。 以这种方式，与常规策略相比，可以基于用于阈值调节物质的降低的温度和剂量来形成复杂的高k金属栅电极结构。

公开(公告)号：US07704840B2

公开(公告)日：2010-04-27

申请号：US11611784

申请日：2006-12-15

Applicant: Igor Peidous ,  Rohit Pal

Inventor： Igor Peidous ,  Rohit Pal

IPC: H01L21/336

CPC classification number: H01L29/78687 ,  H01L29/66553 ,  H01L29/66621 ,  H01L29/66628 ,  H01L29/66772 ,  H01L29/7848

Abstract: A stress enhanced MOS transistor and methods for its fabrication are provided. A semiconductor-on-insulator structure is provided which includes a semiconductor layer having a first surface. A strain-inducing epitaxial layer is blanket deposited over the first surface, and can then be used to create a source region and a drain region which overlie the first surface.

Abstract translation: 提供了一种应力增强型MOS晶体管及其制造方法。 提供了一种绝缘体上半导体结构，其包括具有第一表面的半导体层。 应变诱导外延层被覆盖地沉积在第一表面上，然后可用于产生覆盖在第一表面上的源极区域和漏极区域。

公开(公告)号：US20080248598A1

公开(公告)日：2008-10-09

申请号：US11697955

申请日：2007-04-09

Applicant: Rohit Pal ,  Alok Vaid

Inventor： Rohit Pal ,  Alok Vaid

IPC: H01L21/66 ,  H01L21/306 ,  H01L23/58

CPC classification number: H01L22/12

Abstract: A method includes illuminating at least a portion of a first grid including a first plurality of stressed material regions formed at least partially in a semiconducting material. Light reflected from the illuminated portion of the first grid is measured to generate a first reflection profile. A characteristic of the first plurality of stressed material regions is determined based on the first reflection profile. A test structure includes a first plurality of stressed material regions recessed with respect to a surface of a semiconductor layer and defining a first grid. A first plurality of exposed portions of the semiconductor layer is disposed between each of the first plurality of stressed material regions.

Abstract translation: 一种方法包括照亮包括至少部分地形成在半导体材料中的第一多个应力材料区域的第一栅格的至少一部分。 测量从第一格栅的照明部分反射的光以产生第一反射曲线。 基于第一反射曲线确定第一多个应力材料区域的特性。 测试结构包括相对于半导体层的表面凹陷并限定第一格栅的第一多个应力材料区域。 半导体层的第一多个暴露部分设置在第一多个应力材料区域中的每一个之间。