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1.发明授权Method and structure for ultra-low contact resistance CMOS formed by vertically self-aligned CoSi2 on raised source drain Si/SiGe device 有权通过垂直自对准COSI2在升高的源极漏极Si / SiGe器件上形成的超低接触电阻CMOS的方法和结构公开(公告)号:US06690072B2
公开(公告)日:2004-02-10
申请号:US10156782
申请日:2002-05-24
申请人: Cyril Cabral, Jr. , Roy A. Carruthers , Kevin K. Chan , Jack O. Chu , Guy Moshe Cohen , Steven J. Koester , Christian Lavoie , Ronnen A. Roy
发明人: Cyril Cabral, Jr. , Roy A. Carruthers , Kevin K. Chan , Jack O. Chu , Guy Moshe Cohen , Steven J. Koester , Christian Lavoie , Ronnen A. Roy
IPC分类号: H01L2904
CPC分类号: H01L29/41783 , H01L21/28518 , H01L21/823814 , H01L21/823835 , H01L29/161 , H01L29/665 , H01L2924/0002 , H01L2924/00
摘要: A method (and structure) of forming a vertically-self-aligned silicide contact to an underlying SiGe layer, includes forming a layer of silicon of a first predetermined thickness on the SiGe layer and forming a layer of metal on the silicon layer, where the metal layer has a second predetermined thickness. A thermal annealing process at a predetermined temperature then forms a silicide of the silicon and metal, where the predetermined temperature is chosen to substantially preclude penetration of the silicide into the underlying SiGe layer.
摘要翻译: 形成垂直自对准的硅化物接触到下面的SiGe层的方法(和结构)包括在SiGe层上形成第一预定厚度的硅层,并在硅层上形成一层金属,其中 金属层具有第二预定厚度。 然后在预定温度下的热退火工艺形成硅和金属的硅化物,其中选择预定温度以基本排除硅化物渗透到下面的SiGe层中。
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2.发明授权Method and structure for ultra-low contact resistance CMOS formed by vertically self-aligned CoSi2 on raised source drain Si/SiGe device 失效通过垂直自对准CoSi2在升高的源极漏极Si / SiGe器件上形成的超低接触电阻CMOS的方法和结构公开(公告)号:US06972250B2
公开(公告)日:2005-12-06
申请号:US10419888
申请日:2003-04-22
申请人: Cyril Cabral, Jr. , Roy A. Carruthers , Kevin K. Chan , Jack O. Chu , Guy Moshe Cohen , Steven J. Koester , Christian Lavoie , Ronnen A. Roy
发明人: Cyril Cabral, Jr. , Roy A. Carruthers , Kevin K. Chan , Jack O. Chu , Guy Moshe Cohen , Steven J. Koester , Christian Lavoie , Ronnen A. Roy
IPC分类号: H01L21/285 , H01L21/336 , H01L21/8238 , H01L29/161 , H01L21/4763
CPC分类号: H01L29/41783 , H01L21/28518 , H01L21/823814 , H01L21/823835 , H01L29/161 , H01L29/665 , H01L2924/0002 , H01L2924/00
摘要: A method (and structure) of forming a vertically-self-aligned silicide contact to an underlying SiGe layer, includes forming a layer of silicon of a first predetermined thickness on the SiGe layer and forming a layer of metal on the silicon layer, where the metal layer has a second predetermined thickness. A thermal annealing process at a predetermined temperature then forms a silicide of the silicon and metal, where the predetermined temperature is chosen to substantially preclude penetration of the silicide into the underlying SiGe layer.
摘要翻译: 形成垂直自对准的硅化物接触到下面的SiGe层的方法(和结构)包括在SiGe层上形成第一预定厚度的硅层,并在硅层上形成一层金属,其中 金属层具有第二预定厚度。 然后在预定温度下的热退火工艺形成硅和金属的硅化物,其中选择预定温度以基本排除硅化物渗入下面的SiGe层。
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3.发明授权Self-aligned metal to form contacts to Ge containing substrates and structure formed thereby 失效自对准金属与Ge形成的基板和由此形成的结构形成接触公开(公告)号:US07682968B2
公开(公告)日:2010-03-23
申请号:US12108001
申请日:2008-04-23
申请人: Cyril Cabral, Jr. , Roy A. Carruthers , Christophe Detavernier , Simon Gaudet , Christian Lavoie , Huiling Shang
发明人: Cyril Cabral, Jr. , Roy A. Carruthers , Christophe Detavernier , Simon Gaudet , Christian Lavoie , Huiling Shang
IPC分类号: H01L21/44
CPC分类号: H01L21/28525 , H01L21/28052 , H01L21/28518 , H01L29/665
摘要: A method for forming germano-silicide contacts atop a Ge-containing layer that is more resistant to etching than are conventional silicide contacts that are formed from a pure metal is provided. The method of the present invention includes first providing a structure which comprises a plurality of gate regions located atop a Ge-containing substrate having source/drain regions therein. After this step of the present invention, a Si-containing metal layer is formed atop the said Ge-containing substrate. In areas that are exposed, the Ge-containing substrate is in contact with the Si-containing metal layer. Annealing is then performed to form a germano-silicide compound in the regions in which the Si-containing metal layer and the Ge-containing substrate are in contact; and thereafter, any unreacted Si-containing metal layer is removed from the structure using a selective etch process. In some embodiments, an additional annealing step can follow the removal step. The method of the present invention provides a structure having a germano-silicide contact layer atop a Ge-containing substrate, wherein the germano-silicide contact layer contains more Si than the underlying Ge-containing substrate.
摘要翻译: 提供了一种形成锗硅化物的方法,该方法与由纯金属形成的常规硅化物接触相比更能抵抗蚀刻的含Ge层顶部接触。 本发明的方法包括首先提供一种结构,该结构包括位于其中具有源极/漏极区域的含Ge衬底顶部的多个栅极区域。 在本发明的该步骤之后,在所述含Ge基材上形成含Si金属层。 在暴露的区域中,含Ge衬底与含Si金属层接触。 然后进行退火以在含Si金属层和含Ge基板接触的区域中形成锗化硅化合物; 此后,使用选择性蚀刻工艺从结构中除去任何未反应的含Si金属层。 在一些实施方案中,附加的退火步骤可以跟随去除步骤。 本发明的方法提供了一种在含Ge衬底顶上具有锗硅化物接触层的结构,其中锗硅化物接触层含有比下面的含Ge衬底更多的Si。
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公开(公告)号:US07271486B2
公开(公告)日:2007-09-18
申请号:US11075289
申请日:2005-03-08
申请人: Cyril Cabral, Jr. , Roy A. Carruthers , Christophe Detavernier , James M. E. Harper , Christian Lavoie
发明人: Cyril Cabral, Jr. , Roy A. Carruthers , Christophe Detavernier , James M. E. Harper , Christian Lavoie
CPC分类号: C04B35/58 , C04B35/58085 , C04B2235/40 , C04B2235/404 , C04B2235/405 , C04B2235/408 , C23C26/00 , C23C30/00 , H01L21/28518 , H01L21/76889
摘要: A method for providing a low resistance non-agglomerated Ni monosilicide contact that is useful in semiconductor devices. Where the inventive method of fabricating a substantially non-agglomerated Ni alloy monosilicide comprises the steps of: forming a metal alloy layer over a portion of a Si-containing substrate, wherein said metal alloy layer comprises of Ni and one or multiple alloying additive(s), where said alloying additive is Ti, V, Ge, Cr, Zr, Nb, Mo, Hf, Ta, W, Re, Rh, Pd or Pt or mixtures thereof; annealing the metal alloy layer at a temperature to convert a portion of said metal alloy layer into a Ni alloy monosilicide layer; and removing remaining metal alloy layer not converted into Ni alloy monosilicide. The alloying additives are selected for phase stability and to retard agglomeration. The alloying additives most efficient in retarding agglomeration are most efficient in producing silicides with low sheet resistance.
摘要翻译: 一种用于提供半导体器件中有用的低电阻非聚集Ni单硅化物接触的方法。 在制造基本上非团聚的Ni合金一硅化硅的本发明方法中,包括以下步骤:在含Si衬底的一部分上形成金属合金层,其中所述金属合金层包括Ni和一种或多种合金添加剂 ),其中所述合金添加剂为Ti,V,Ge,Cr,Zr,Nb,Mo,Hf,Ta,W,Re,Rh,Pd或Pt或其混合物; 在将所述金属合金层的一部分转化为Ni合金一硅化物层的温度下退火金属合金层; 并且除去未转化为Ni合金一硅化物的剩余金属合金层。 选择合金添加剂用于相稳定性并阻止团聚。 延迟聚集中最有效的合金添加剂在生产低薄层电阻的硅化物中是最有效的。
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5.发明授权Self-aligned metal to form contacts to Ge containing substrates and structure formed thereby 有权自对准金属与Ge形成的基板和由此形成的结构形成接触公开(公告)号:US08154130B2
公开(公告)日:2012-04-10
申请号:US12107992
申请日:2008-04-23
申请人: Cyril Cabral, Jr. , Roy A. Carruthers , Christophe Detavernier , Simon Gaudet , Christian Lavoie , Huiling Shang
发明人: Cyril Cabral, Jr. , Roy A. Carruthers , Christophe Detavernier , Simon Gaudet , Christian Lavoie , Huiling Shang
IPC分类号: H01L29/40
CPC分类号: H01L21/28525 , H01L21/28052 , H01L21/28518 , H01L29/665
摘要: A method for forming germano-silicide contacts atop a Ge-containing layer that is more resistant to etching than are conventional silicide contacts that are formed from a pure metal is provided. The method of the present invention includes first providing a structure which comprises a plurality of gate regions located atop a Ge-containing substrate having source/drain regions therein. After this step of the present invention, a Si-containing metal layer is formed atop the said Ge-containing substrate. In areas that are exposed, the Ge-containing substrate is in contact with the Si-containing metal layer. Annealing is then performed to form a germano-silicide compound in the regions in which the Si-containing metal layer and the Ge-containing substrate are in contact; and thereafter, any unreacted Si-containing metal layer is removed from the structure using a selective etch process. In some embodiments, an additional annealing step can follow the removal step. The method of the present invention provides a structure having a germano-silicide contact layer atop a Ge-containing substrate, wherein the germano-silicide contact layer contains more Si than the underlying Ge-containing substrate.
摘要翻译: 提供了一种形成锗硅化物的方法,该方法与由纯金属形成的常规硅化物接触相比更能抵抗蚀刻的含Ge层顶部接触。 本发明的方法包括首先提供一种结构,该结构包括位于其中具有源极/漏极区域的含Ge衬底顶部的多个栅极区域。 在本发明的该步骤之后,在所述含Ge基材上形成含Si金属层。 在暴露的区域中,含Ge衬底与含Si金属层接触。 然后进行退火以在含Si金属层和含Ge基板接触的区域中形成锗化硅化合物; 此后,使用选择性蚀刻工艺从结构中除去任何未反应的含Si金属层。 在一些实施方案中,附加的退火步骤可以跟随去除步骤。 本发明的方法提供了一种在含Ge衬底顶上具有锗硅化物接触层的结构,其中锗硅化物接触层含有比下面的含Ge衬底更多的Si。
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6.发明授权公开(公告)号:US07384868B2
公开(公告)日:2008-06-10
申请号:US10662900
申请日:2003-09-15
申请人: Cyril Cabral, Jr. , Roy A. Carruthers , Jia Chen , Christophe Detavernier , James M. Harper , Christian Lavoie
发明人: Cyril Cabral, Jr. , Roy A. Carruthers , Jia Chen , Christophe Detavernier , James M. Harper , Christian Lavoie
IPC分类号: H01L21/44
CPC分类号: H01L21/28518
摘要: A method that solves the increased nucleation temperature that is exhibited during the formation of cobalt disilicides in the presence of Ge atoms is provided. The reduction in silicide formation temperature is achieved by first providing a structure including a Co layer including at least Ni, as an additive element, on top of a SiGe containing substrate. Next, the structure is subjected to a self-aligned silicide process which includes a first anneal, a selective etching step and a second anneal to form a solid solution of (Co, Ni) disilicide on the SiGe containing substrate. The Co layer including at least Ni can comprise an alloy layer of Co and Ni, a stack of Ni/Co or a stack of Co/Ni. A semiconductor structure including the solid solution of (Co, Ni) disilicide on the SiGe containing substrate is also provided.
摘要翻译: 提供了一种解决在锗原子存在下形成二硅化钴期间显示的增加的成核温度的方法。 硅化物形成温度的降低通过首先提供包括至少包含Ni的Co层作为添加元素在包含SiGe的衬底的顶部上的结构来实现。 接下来,对该结构进行自对准硅化物工艺,其包括第一退火,选择性蚀刻步骤和第二退火,以在含SiGe的衬底上形成(Co,Ni)二硅化物的固溶体。 至少包括Ni的Co层可以包括Co和Ni的合金层,Ni / Co的堆叠或Co / Ni的堆叠。 还提供了包含(Co,Ni)二硅化物在含SiGe的衬底上的固溶体的半导体结构。
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7.发明授权Self-aligned metal to form contacts to Ge containing substrates and structure formed thereby 有权自对准金属与Ge形成的基板和由此形成的结构形成接触公开(公告)号:US07449782B2
公开(公告)日:2008-11-11
申请号:US10838378
申请日:2004-05-04
申请人: Cyril Cabral, Jr. , Roy A. Carruthers , Christophe Detavernier , Simon Gaudet , Christian Lavoie , Huiling Shang
发明人: Cyril Cabral, Jr. , Roy A. Carruthers , Christophe Detavernier , Simon Gaudet , Christian Lavoie , Huiling Shang
IPC分类号: H01L29/40
CPC分类号: H01L21/28525 , H01L21/28052 , H01L21/28518 , H01L29/665
摘要: A method for forming germano-silicide contacts atop a Ge-containing layer that is more resistant to etching than are conventional silicide contacts that are formed from a pure metal is provided. The method of the present invention includes first providing a structure which comprises a plurality of gate regions located atop a Ge-containing substrate having source/drain regions therein. After this step of the present invention, a Si-containing metal layer is formed atop the said Ge-containing substrate. In areas that are exposed, the Ge-containing substrate is in contact with the Si-containing metal layer. Annealing is then performed to form a germano-silicide compound in the regions in which the Si-containing metal layer and the Ge-containing substrate are in contact; and thereafter, any unreacted Si-containing metal layer is removed from the structure using a selective etch process. In some embodiments, an additional annealing step can follow the removal step. The method of the present invention provides a structure having a germano-silicide contact layer atop a Ge-containing substrate, wherein the germano-silicide contact layer contains more Si than the underlying Ge-containing substrate.
摘要翻译: 提供了一种形成锗硅化物的方法,该方法与由纯金属形成的常规硅化物接触相比更能抵抗蚀刻的含Ge层顶部接触。 本发明的方法包括首先提供一种结构,该结构包括位于其中具有源极/漏极区域的含Ge衬底顶部的多个栅极区域。 在本发明的该步骤之后,在所述含Ge基材上形成含Si金属层。 在暴露的区域中,含Ge衬底与含Si金属层接触。 然后进行退火以在含Si金属层和含Ge基板接触的区域中形成锗化硅化合物; 此后,使用选择性蚀刻工艺从结构中除去任何未反应的含Si金属层。 在一些实施方案中,附加的退火步骤可以跟随去除步骤。 本发明的方法提供了一种在含Ge衬底顶上具有锗硅化物接触层的结构,其中锗硅化物接触层含有比下面的含Ge衬底更多的Si。
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公开(公告)号:US06905560B2
公开(公告)日:2005-06-14
申请号:US10334464
申请日:2002-12-31
申请人: Cyril Cabral, Jr. , Roy A. Carruthers , Christophe Detavernier , James M. E. Harper , Christian Lavoie
发明人: Cyril Cabral, Jr. , Roy A. Carruthers , Christophe Detavernier , James M. E. Harper , Christian Lavoie
IPC分类号: C04B35/58 , C22F1/00 , C23C10/00 , H01L21/283 , H01L21/285 , H01L21/3205 , H01L21/44 , H01L21/60 , H01L21/768
CPC分类号: C04B35/58 , C04B35/58085 , C04B2235/40 , C04B2235/404 , C04B2235/405 , C04B2235/408 , C23C26/00 , C23C30/00 , H01L21/28518 , H01L21/76889
摘要: A method for providing a low resistance non-agglomerated Ni monosilicide contact that is useful in semiconductor devices. Where the inventive method of fabricating a substantially non-agglomerated Ni alloy monosilicide comprises the steps of: forming a metal alloy layer over a portion of a Si-containing substrate, wherein said metal alloy layer comprises of Ni and one or multiple alloying additive(s), where said alloying additive is Ti, V, Ge, Cr, Zr, Nb, Mo, Hf, Ta, W, Re, Rh, Pd or Pt or mixtures thereof; annealing the metal alloy layer at a temperature to convert a portion of said metal alloy layer into a Ni alloy monosilicide layer; and removing remaining metal alloy layer not converted into Ni alloy monosilicide. The alloying additives are selected for phase stability and to retard agglomeration. The alloying additives most efficient in retarding agglomeration are most efficient in producing silicides with low sheet resistance.
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9.发明授权公开(公告)号:US08125082B2
公开(公告)日:2012-02-28
申请号:US12120854
申请日:2008-05-15
申请人: Cyril Cabral, Jr. , Roy A. Carruthers , Jia Chen , Christopher Detavernier , James M. Harper , Christian Lavoie
发明人: Cyril Cabral, Jr. , Roy A. Carruthers , Jia Chen , Christopher Detavernier , James M. Harper , Christian Lavoie
IPC分类号: H01L29/161
CPC分类号: H01L21/28518
摘要: A method that solves the increased nucleation temperature that is exhibited during the formation of cobalt disilicides in the presence of Ge atoms is provided. The reduction in silicide formation temperature is achieved by first providing a structure including a Co layer including at least Ni, as an additive element, on top of a SiGe containing substrate. Next, the structure is subjected to a self-aligned silicide process which includes a first anneal, a selective etching step and a second anneal to form a solid solution of (Co, Ni) disilicide on the SiGe containing substrate. The Co layer including at least Ni can comprise an alloy layer of Co and Ni, a stack of Ni/Co or a stack of Co/Ni. A semiconductor structure including the solid solution of (Co, Ni) disilicide on the SiGe containing substrate is also provided.
摘要翻译: 提供了一种解决在锗原子存在下形成二硅化钴期间显示的增加的成核温度的方法。 硅化物形成温度的降低通过首先提供包括至少包含Ni的Co层作为添加元素在包含SiGe的衬底的顶部上的结构来实现。 接下来,对该结构进行自对准硅化物工艺,其包括第一退火,选择性蚀刻步骤和第二退火,以在含SiGe的衬底上形成(Co,Ni)二硅化物的固溶体。 至少包括Ni的Co层可以包括Co和Ni的合金层,Ni / Co的堆叠或Co / Ni的堆叠。 还提供了包含(Co,Ni)二硅化物在含SiGe的衬底上的固溶体的半导体结构。
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公开(公告)号:US20110206934A1
公开(公告)日:2011-08-25
申请号:US12710333
申请日:2010-02-22
申请人: Ageeth A. Bol , Roy A. Carruthers , Jack O. Chu , Alfred Grill , Christian Lavoie , Katherine L. Saenger , James C. Tsang
发明人: Ageeth A. Bol , Roy A. Carruthers , Jack O. Chu , Alfred Grill , Christian Lavoie , Katherine L. Saenger , James C. Tsang
CPC分类号: C01B31/0446 , B82Y30/00 , B82Y40/00 , C01B32/184 , Y10T428/30
摘要: A method for forming a single, few-layer, or multi-layer graphene and structure is described incorporating selecting a substrate having a buried layer of carbon underneath a metal layer, providing an ambient and providing a heat treatment to pass carbon through the metal layer to form a graphene layer on the metal layer surface or incorporating a metal-carbon layer which is heated to segregate carbon in the form of graphene to the surface or chemically reacting the metal in the metal-carbon layer with a substrate containing Si driving the carbon to the surface whereby graphene is formed.
摘要翻译: 描述了形成单层,几层或多层石墨烯和结构的方法,其包括选择在金属层下方具有埋藏层的衬底的基底,提供环境并提供热处理以使碳通过金属层 以在金属层表面上形成石墨烯层或掺入金属碳层,该金属碳层被加热以将石墨烯形式的碳分离到表面或使金属 - 碳层中的金属与含有驱动碳的Si的基板化学反应 到形成石墨烯的表面。
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