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1. 发明授权

US09059316B2 Structure and method for mobility enhanced MOSFETs with unalloyed silicide 有权
标题翻译：具有非合金化硅化物的迁移率增强型MOSFET的结构和方法
公开(公告)号：US09059316B2
公开(公告)日：2015-06-16
申请号：US13397860
申请日：2012-02-16
申请人： Yaocheng Liu , Dureseti Chidambarrao , Oleg Gluschenkov , Judson R. Holt , Renee T. Mo , Kern Rim
发明人： Yaocheng Liu , Dureseti Chidambarrao , Oleg Gluschenkov , Judson R. Holt , Renee T. Mo , Kern Rim
IPC分类号： H01L21/8238 , H01L21/768 , H01L21/84 , H01L27/12 , H01L29/66 , H01L29/78 , H01L27/32 , H01L29/165
CPC分类号： H01L21/823864 , H01L21/76886 , H01L21/823807 , H01L21/823814 , H01L21/84 , H01L27/1203 , H01L27/3279 , H01L29/165 , H01L29/665 , H01L29/6656 , H01L29/66628 , H01L29/66636 , H01L29/7848
摘要： While embedded silicon germanium alloy and silicon carbon alloy provide many useful applications, especially for enhancing the mobility of MOSFETs through stress engineering, formation of alloyed silicide on these surfaces degrades device performance. The present invention provides structures and methods for providing unalloyed silicide on such silicon alloy surfaces placed on semiconductor substrates. This enables the formation of low resistance contacts for both mobility enhanced PFETs with embedded SiGe and mobility enhanced NFETs with embedded Si:C on the same semiconductor substrate. Furthermore, this invention provides methods for thick epitaxial silicon alloy, especially thick epitaxial Si:C alloy, above the level of the gate dielectric to increase the stress on the channel on the transistor devices.
摘要翻译：虽然嵌入式硅锗合金和硅碳合金提供了许多有用的应用，特别是为了通过应力工程增强MOSFET的迁移率，在这些表面上形成合金化硅化物降低了器件性能。本发明提供了在放置在半导体衬底上的这种硅合金表面上提供非合金硅化物的结构和方法。这使得能够在具有嵌入式SiGe的迁移率增强的PFET和在同一半导体衬底上具有嵌入的Si：C的迁移率增强的NFET形成低电阻触点。此外，本发明提供了在栅极电介质的电平之上的厚外延硅合金，特别是厚的外延Si：C合金的方法，以增加晶体管器件上的沟道上的应力。

2. 发明申请

US20120149159A1 STRUCTURE AND METHOD FOR MOBILITY ENHANCED MOSFETS WITH UNALLOYED SILICIDE 有权
公开(公告)号：US20120149159A1
公开(公告)日：2012-06-14
申请号：US13397865
申请日：2012-02-16
申请人： Yaocheng Liu , Dureseti Chidambarrao , Oleg Gluschenkov , Judson R. Holt , Renee T. Mo , Kern Rim
发明人： Yaocheng Liu , Dureseti Chidambarrao , Oleg Gluschenkov , Judson R. Holt , Renee T. Mo , Kern Rim
IPC分类号： H01L21/8238
CPC分类号： H01L21/823864 , H01L21/76886 , H01L21/823807 , H01L21/823814 , H01L21/84 , H01L27/1203 , H01L27/3279 , H01L29/165 , H01L29/665 , H01L29/6656 , H01L29/66628 , H01L29/66636 , H01L29/7848
摘要： While embedded silicon germanium alloy and silicon carbon alloy provide many useful applications, especially for enhancing the mobility of MOSFETs through stress engineering, formation of alloyed silicide on these surfaces degrades device performance. The present invention provides structures and methods for providing unalloyed silicide on such silicon alloy surfaces placed on semiconductor substrates. This enables the formation of low resistance contacts for both mobility enhanced PFETs with embedded SiGe and mobility enhanced NFETs with embedded Si:C on the same semiconductor substrate. Furthermore, this invention provides methods for thick epitaxial silicon alloy, especially thick epitaxial Si:C alloy, above the level of the gate dielectric to increase the stress on the channel on the transistor devices.

3. 发明授权

US08642434B2 Structure and method for mobility enhanced MOSFETS with unalloyed silicide 有权
标题翻译：具有非合金化硅化物的移动性增强MOSFET的结构和方法
公开(公告)号：US08642434B2
公开(公告)日：2014-02-04
申请号：US13397865
申请日：2012-02-16
申请人： Yaocheng Liu , Dureseti Chidambarrao , Oleg Gluschenkov , Judson R. Holt , Renee T. Mo , Kern Rim
发明人： Yaocheng Liu , Dureseti Chidambarrao , Oleg Gluschenkov , Judson R. Holt , Renee T. Mo , Kern Rim
IPC分类号： H01L21/336 , H01L21/8238
CPC分类号： H01L21/823864 , H01L21/76886 , H01L21/823807 , H01L21/823814 , H01L21/84 , H01L27/1203 , H01L27/3279 , H01L29/165 , H01L29/665 , H01L29/6656 , H01L29/66628 , H01L29/66636 , H01L29/7848
摘要： While embedded silicon germanium alloy and silicon carbon alloy provide many useful applications, especially for enhancing the mobility of MOSFETs through stress engineering, formation of alloyed silicide on these surfaces degrades device performance. The present invention provides structures and methods for providing unalloyed silicide on such silicon alloy surfaces placed on semiconductor substrates. This enables the formation of low resistance contacts for both mobility enhanced PFETs with embedded SiGe and mobility enhanced NFETs with embedded Si:C on the same semiconductor substrate. Furthermore, this invention provides methods for thick epitaxial silicon alloy, especially thick epitaxial Si:C alloy, above the level of the gate dielectric to increase the stress on the channel on the transistor devices.
摘要翻译：虽然嵌入式硅锗合金和硅碳合金提供了许多有用的应用，特别是为了通过应力工程增强MOSFET的迁移率，在这些表面上形成合金化硅化物降低了器件性能。本发明提供了在放置在半导体衬底上的这种硅合金表面上提供非合金硅化物的结构和方法。这使得能够在具有嵌入式SiGe的迁移率增强的PFET和在同一半导体衬底上具有嵌入的Si：C的迁移率增强的NFET形成低电阻触点。此外，本发明提供了在栅极电介质的电平之上的厚外延硅合金，特别是厚的外延Si：C合金的方法，以增加晶体管器件上的沟道上的应力。

4. 发明申请

US20120146092A1 STRUCTURE AND METHOD FOR MOBILITY ENHANCED MOSFETS WITH UNALLOYED SILICIDE 有权
标题翻译：具有硅酸盐的移动增强MOSFET的结构和方法
公开(公告)号：US20120146092A1
公开(公告)日：2012-06-14
申请号：US13397860
申请日：2012-02-16
申请人： Yaocheng Liu , Dureseti Chidambarrao , Oleg Gluschenkov , Judson R. Holt , Renee T. Mo , Kern Rim
发明人： Yaocheng Liu , Dureseti Chidambarrao , Oleg Gluschenkov , Judson R. Holt , Renee T. Mo , Kern Rim
IPC分类号： H01L27/092
CPC分类号： H01L21/823864 , H01L21/76886 , H01L21/823807 , H01L21/823814 , H01L21/84 , H01L27/1203 , H01L27/3279 , H01L29/165 , H01L29/665 , H01L29/6656 , H01L29/66628 , H01L29/66636 , H01L29/7848
摘要： While embedded silicon germanium alloy and silicon carbon alloy provide many useful applications, especially for enhancing the mobility of MOSFETs through stress engineering, formation of alloyed silicide on these surfaces degrades device performance. The present invention provides structures and methods for providing unalloyed silicide on such silicon alloy surfaces placed on semiconductor substrates. This enables the formation of low resistance contacts for both mobility enhanced PFETs with embedded SiGe and mobility enhanced NFETs with embedded Si:C on the same semiconductor substrate. Furthermore, this invention provides methods for thick epitaxial silicon alloy, especially thick epitaxial Si:C alloy, above the level of the gate dielectric to increase the stress on the channel on the transistor devices.
摘要翻译：虽然嵌入式硅锗合金和硅碳合金提供了许多有用的应用，特别是为了通过应力工程增强MOSFET的迁移率，在这些表面上形成合金化硅化物降低了器件性能。本发明提供了在放置在半导体衬底上的这种硅合金表面上提供非合金硅化物的结构和方法。这使得能够在具有嵌入式SiGe的迁移率增强的PFET和在同一半导体衬底上具有嵌入的Si：C的迁移率增强的NFET形成低电阻触点。此外，本发明提供了在栅极电介质的电平之上的厚外延硅合金，特别是厚的外延Si：C合金的方法，以增加晶体管器件上的沟道上的应力。

5. 发明申请

US20080164491A1 STRUCTURE AND METHOD FOR MOBILITY ENHANCED MOSFETS WITH UNALLOYED SILICIDE 有权
标题翻译：具有硅酸盐的移动增强MOSFET的结构和方法
公开(公告)号：US20080164491A1
公开(公告)日：2008-07-10
申请号：US11619809
申请日：2007-01-04
申请人： Yaocheng Liu , Dureseti Chidambarrao , Oleg Gluschenkov , Judson R. Holt , Renee T. Mo , Kern Rim
发明人： Yaocheng Liu , Dureseti Chidambarrao , Oleg Gluschenkov , Judson R. Holt , Renee T. Mo , Kern Rim
IPC分类号： H01L27/092 , H01L21/8238
CPC分类号： H01L21/823864 , H01L21/76886 , H01L21/823807 , H01L21/823814 , H01L21/84 , H01L27/1203 , H01L27/3279 , H01L29/165 , H01L29/665 , H01L29/6656 , H01L29/66628 , H01L29/66636 , H01L29/7848
摘要： While embedded silicon germanium alloy and silicon carbon alloy provide many useful applications, especially for enhancing the mobility of MOSFETs through stress engineering, formation of alloyed silicide on these surfaces degrades device performance. The present invention provides structures and methods for providing unalloyed silicide on such silicon alloy surfaces placed on semiconductor substrates. This enables the formation of low resistance contacts for both mobility enhanced PFETs with embedded SiGe and mobility enhanced NFETs with embedded Si:C on the same semiconductor substrate. Furthermore, this invention provides methods for thick epitaxial silicon alloy, especially thick epitaxial Si:C alloy, above the level of the gate dielectric to increase the stress on the channel on the transistor devices.
摘要翻译：虽然嵌入式硅锗合金和硅碳合金提供了许多有用的应用，特别是为了通过应力工程增强MOSFET的迁移率，在这些表面上形成合金化硅化物降低了器件性能。本发明提供了在放置在半导体衬底上的这种硅合金表面上提供非合金硅化物的结构和方法。这使得能够在具有嵌入式SiGe的迁移率增强的PFET和在同一半导体衬底上具有嵌入的Si：C的迁移率增强的NFET形成低电阻触点。此外，本发明提供了在栅极电介质的电平之上的厚外延硅合金，特别是厚的外延Si：C合金的方法，以增加晶体管器件上的沟道上的应力。

6. 发明申请

US20080128712A1 RAISED STI STRUCTURE AND SUPERDAMASCENE TECHNIQUE FOR NMOSFET PERFORMANCE ENHANCEMENT WITH EMBEDDED SILICON CARBON 有权
标题翻译：用于具有嵌入式硅碳的NMOSFET性能增强的提高的结构和超级散射技术
公开(公告)号：US20080128712A1
公开(公告)日：2008-06-05
申请号：US12028191
申请日：2008-02-08
申请人： Ashima B. Chakravarti , Dureseti Chidambarrao , Judson R. Holt , Yaocheng Liu , Kern Rim
发明人： Ashima B. Chakravarti , Dureseti Chidambarrao , Judson R. Holt , Yaocheng Liu , Kern Rim
IPC分类号： H01L27/092 , H01L29/778
CPC分类号： H01L21/823864 , H01L21/76224 , H01L21/823807 , H01L21/823814 , H01L21/823878 , H01L29/165 , H01L29/66628 , H01L29/7843 , H01L29/7848
摘要： An embedded silicon carbon (Si:C) having a substitutional carbon content in excess of one percent in order to effectively increase electron mobility by application of tension to a channel region of an NFET is achieved by overfilling a gap or trench formed by transistor gate structures with Si:C and polishing an etching the Si:C to or below a surface of a raised gate structure in a super-Damascene process, leaving Si:C only in selected regions above the transistor source and drain, even though processes capable of depositing Si:C with sufficiently high substitutional carbon content are inherently non-selective.
摘要翻译：通过过度填充由晶体管栅极结构形成的间隙或沟槽，实现了通过向NFET的沟道区域施加张力来有效地增加电子迁移率的具有超过1％的取代碳含量的嵌入式硅碳（Si：C）用Si：C，并在超级马赛克法中抛光将Si：C蚀刻到升高的栅极结构的表面或之下，即使在晶体管源极和漏极之上的选定区域中仅保留Si：C，即使能够沉积具有足够高的替代碳含量的Si：C固有地是非选择性的。

7. 发明申请

US20080026516A1 RAISED STI STRUCTURE AND SUPERDAMASCENE TECHNIQUE FOR NMOSFET PERFORMANCE ENHANCEMENT WITH EMBEDDED SILICON CARBON 失效
公开(公告)号：US20080026516A1
公开(公告)日：2008-01-31
申请号：US11459730
申请日：2006-07-25
申请人： Ashima B. Chakravarti , Dureseti Chidambarrao , Judson R. Holt , Yaocheng Liu , Kern Rim
发明人： Ashima B. Chakravarti , Dureseti Chidambarrao , Judson R. Holt , Yaocheng Liu , Kern Rim
IPC分类号： H01L21/8234
CPC分类号： H01L21/823864 , H01L21/76224 , H01L21/823807 , H01L21/823814 , H01L21/823878 , H01L29/165 , H01L29/66628 , H01L29/7843 , H01L29/7848
摘要： An embedded silicon carbon (Si:C) having a substitutional carbon content in excess of one percent in order to effectively increase electron mobility by application of tension to a channel region of an NFET is achieved by overfilling a gap or trench formed by transistor gate structures with Si:C and polishing an etching the Si:C to or below a surface of a raised gate structure in a super-Damascene process, leaving Si:C only in selected regions above the transistor source and drain, even though processes capable of depositing Si:C with sufficiently high substitutional carbon content are inherently non-selective.

8. 发明授权

US07838932B2 Raised STI structure and superdamascene technique for NMOSFET performance enhancement with embedded silicon carbon 有权
标题翻译：用嵌入式硅碳纳米管技术，提高了STIFET结构和超级马赛克纳米管的性能提升
公开(公告)号：US07838932B2
公开(公告)日：2010-11-23
申请号：US12028191
申请日：2008-02-08
申请人： Ashima B. Chakravarti , Dureseti Chidambarrao , Judson R. Holt , Yaocheng Liu , Kern Rim
发明人： Ashima B. Chakravarti , Dureseti Chidambarrao , Judson R. Holt , Yaocheng Liu , Kern Rim
IPC分类号： H01L29/76257
CPC分类号： H01L21/823864 , H01L21/76224 , H01L21/823807 , H01L21/823814 , H01L21/823878 , H01L29/165 , H01L29/66628 , H01L29/7843 , H01L29/7848
摘要： An embedded silicon carbon (Si:C) having a substitutional carbon content in excess of one percent in order to effectively increase electron mobility by application of tension to a channel region of an NFET is achieved by overfilling a gap or trench formed by transistor gate structures with Si:C and polishing an etching the Si:C to or below a surface of a raised gate structure in a super-Damascene process, leaving Si:C only in selected regions above the transistor source and drain, even though processes capable of depositing Si:C with sufficiently high substitutional carbon content are inherently non-selective.
摘要翻译：通过过度填充由晶体管栅极结构形成的间隙或沟槽，实现了通过向NFET的沟道区域施加张力来有效地增加电子迁移率的具有超过1％的取代碳含量的嵌入式硅碳（Si：C）用Si：C，并在超级马赛克法中抛光将Si：C蚀刻到升高的栅极结构的表面或之下，即使在晶体管源极和漏极之上的选定区域中仅保留Si：C，即使能够沉积具有足够高的替代碳含量的Si：C固有地是非选择性的。

9. 发明授权

US07473594B2 Raised STI structure and superdamascene technique for NMOSFET performance enhancement with embedded silicon carbon 失效
标题翻译：用嵌入式硅碳纳米管技术，提高了STIFET结构和超级马赛克纳米管的性能提升
公开(公告)号：US07473594B2
公开(公告)日：2009-01-06
申请号：US11459730
申请日：2006-07-25
申请人： Ashima B. Chakravarti , Dureseti Chidambarrao , Judson R. Holt , Yaocheng Liu , Kern Rim
发明人： Ashima B. Chakravarti , Dureseti Chidambarrao , Judson R. Holt , Yaocheng Liu , Kern Rim
IPC分类号： H01L21/8238
CPC分类号： H01L21/823864 , H01L21/76224 , H01L21/823807 , H01L21/823814 , H01L21/823878 , H01L29/165 , H01L29/66628 , H01L29/7843 , H01L29/7848
摘要： An embedded silicon carbon (Si:C) having a substitutional carbon content in excess of one percent in order to effectively increase electron mobility by application of tension to a channel region of an NFET is achieved by overfilling a gap or trench formed by transistor gate structures with Si:C and polishing an etching the Si:C to or below a surface of a raised gate structure in a super-Damascene process, leaving Si:C only in selected regions above the transistor source and drain, even though processes capable of depositing Si:C with sufficiently high substitutional carbon content are inherently non-selective.
摘要翻译：通过过度填充由晶体管栅极结构形成的间隙或沟槽，实现了通过向NFET的沟道区施加张力来有效地增加电子迁移率的具有超过1％的取代碳含量的嵌入式硅碳（Si：C）用Si：C，并在超级马赛克法中抛光将Si：C蚀刻到升高的栅极结构的表面或之下，即使在晶体管源极和漏极之上的选定区域中仅保留Si：C，即使能够沉积具有足够高的替代碳含量的Si：C固有地是非选择性的。

10. 发明申请

US20090181508A1 Method and Structure For NFET With Embedded Silicon Carbon 审中-公开
标题翻译：具有嵌入式硅碳的NFET的方法和结构
公开(公告)号：US20090181508A1
公开(公告)日：2009-07-16
申请号：US12014934
申请日：2008-01-16
申请人： Judson R. Holt , Yaocheng Liu , Kern Rim
发明人： Judson R. Holt , Yaocheng Liu , Kern Rim
IPC分类号： H01L21/336
CPC分类号： H01L21/26506 , H01L21/324 , H01L29/165 , H01L29/6656 , H01L29/66636 , H01L29/78 , H01L29/7848
摘要： A method forms a gate stack over a channel region of a substrate and then forms disposable spacers on sides of the gate stack. Trenches are then recessed in regions of the substrate not protected by the gate stack and the disposable spacers. Carbon-doped Silicon lattice structures are then formed in the trenches. During the forming of the Carbon-doped Silicon lattice structures Carbon atoms can be positioned in any substitutional sites within the lattice structures. The Carbon-doped Silicon lattice structures are then amorphized by implantation of an amorphizing species. An annealing process then recrystallizes the amorphized regions by solid-phase epitaxy regrowth to form the source and drain regions. During the annealing, a majority of Carbon atoms are substitutionally incorporated into a Silicon lattice of the source and drain regions to provide tensile stress to the channel region.
摘要翻译：一种方法在衬底的通道区域上形成栅极堆叠，然后在栅极叠层的侧面上形成一次性间隔物。沟槽然后凹陷在不被栅极堆叠和一次性间隔件保护的衬底的区域中。然后在沟槽中形成碳掺杂的硅晶格结构。在形成碳掺杂硅晶格结构期间，碳原子可以位于晶格结构内的任何取代位置。然后通过植入非晶化物质将碳掺杂的硅晶格结构非晶化。退火工艺然后通过固相外延再生长再结晶非晶化区域以形成源区和漏区。在退火期间，大多数碳原子被替代地并入到源极和漏极区域的硅晶格中，以向沟道区域提供拉伸应力。

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