公开(公告)号：US07884017B2

公开(公告)日：2011-02-08

申请号：US12699518

申请日：2010-02-03

申请人： Zhonghui Alex Wang ,  Tiruchirapalli Arunagiri ,  Fritz C. Redeker ,  Yezdi Dordi ,  John Boyd ,  Mikhail Korolik ,  Arthur M. Howald ,  William Thie ,  Praveen Nalla

发明人： Zhonghui Alex Wang ,  Tiruchirapalli Arunagiri ,  Fritz C. Redeker ,  Yezdi Dordi ,  John Boyd ,  Mikhail Korolik ,  Arthur M. Howald ,  William Thie ,  Praveen Nalla

IPC分类号： H01L21/44 ,  H01L21/31 ,  H01L21/469 ,  H01L21/24 ,  H01L21/40

CPC分类号： H01L21/02074

摘要： Methods for cleaning semiconductor wafers following chemical mechanical polishing are provided. An exemplary method exposes a wafer to a thermal treatment in an oxidizing environment followed by a thermal treatment in a reducing environment. The thermal treatment in the oxidizing environment both removes residues and oxidizes exposed copper surfaces to form a cupric oxide layer. The thermal treatment in the reducing environment then reduces the cupric oxide to elemental copper. This leaves the exposed copper clean and in condition for further processing, such as electroless plating.

摘要翻译： 提供了化学机械抛光后的半导体晶片清洗方法。 一种示例性方法将晶片暴露于氧化环境中的热处理，然后在还原环境中进行热处理。 在氧化环境中的热处理既去除残留物，又氧化暴露的铜表面以形成氧化铜层。 然后，在还原环境中的热处理将氧化铜还原为元素铜。 这使得暴露的铜清洁并进行进一步处理，例如化学镀。

公开(公告)号：US20080280456A1

公开(公告)日：2008-11-13

申请号：US11801269

申请日：2007-05-08

申请人： Zhonghui Alex Wang ,  Tiruchirapalli Arunagiri ,  Fritz C. Redeker ,  Yezdi Dordi ,  John Boyd ,  Mikhail Korolik ,  Arthur M. Howald ,  William Thie ,  Praveen Nalla

发明人： Zhonghui Alex Wang ,  Tiruchirapalli Arunagiri ,  Fritz C. Redeker ,  Yezdi Dordi ,  John Boyd ,  Mikhail Korolik ,  Arthur M. Howald ,  William Thie ,  Praveen Nalla

IPC分类号： H01L21/00

CPC分类号： H01L21/02074

摘要： Methods for cleaning semiconductor wafers following chemical mechanical polishing are provided. An exemplary method exposes a wafer to a thermal treatment in an oxidizing environment followed by a thermal treatment in a reducing environment. The thermal treatment in the oxidizing environment both removes residues and oxidizes exposed copper surfaces to form a cupric oxide layer. The thermal treatment in the reducing environment then reduces the cupric oxide to elemental copper. This leaves the exposed copper clean and in condition for further processing, such as electroless plating.

摘要翻译： 提供了化学机械抛光后的半导体晶片清洗方法。 一种示例性方法将晶片暴露于氧化环境中的热处理，然后在还原环境中进行热处理。 在氧化环境中的热处理既去除残留物，又氧化暴露的铜表面以形成氧化铜层。 然后，在还原环境中的热处理将氧化铜还原为元素铜。 这使得暴露的铜清洁并进行进一步处理，例如化学镀。

公开(公告)号：US20100136788A1

公开(公告)日：2010-06-03

申请号：US12699518

申请日：2010-02-03

申请人： Zhonghui Alex Wang ,  Tiruchirapalli Arunagiri ,  Fritz C. Redeker ,  Yezdi Dordi ,  John Boyd ,  Mikhail Korolik ,  Arthur M. Howald ,  William Thie ,  Praveen Nalla

发明人： Zhonghui Alex Wang ,  Tiruchirapalli Arunagiri ,  Fritz C. Redeker ,  Yezdi Dordi ,  John Boyd ,  Mikhail Korolik ,  Arthur M. Howald ,  William Thie ,  Praveen Nalla

IPC分类号： H01L21/306 ,  H01L21/3205

CPC分类号： H01L21/02074

摘要： Methods for cleaning semiconductor wafers following chemical mechanical polishing are provided. An exemplary method exposes a wafer to a thermal treatment in an oxidizing environment followed by a thermal treatment in a reducing environment. The thermal treatment in the oxidizing environment both removes residues and oxidizes exposed copper surfaces to form a cupric oxide layer. The thermal treatment in the reducing environment then reduces the cupric oxide to elemental copper. This leaves the exposed copper clean and in condition for further processing, such as electroless plating.

摘要翻译： 提供了化学机械抛光后的半导体晶片清洗方法。 一种示例性方法将晶片暴露于氧化环境中的热处理，然后在还原环境中进行热处理。 在氧化环境中的热处理既去除残留物，又氧化暴露的铜表面以形成氧化铜层。 然后，在还原环境中的热处理将氧化铜还原为元素铜。 这使得暴露的铜清洁并进行进一步处理，例如化学镀。

公开(公告)号：US07709400B2

公开(公告)日：2010-05-04

申请号：US11801269

申请日：2007-05-08

申请人： Zhonghui Alex Wang ,  Tiruchirapalli Arunagirí ,  Fritz C. Redeker ,  Yezdi Dordi ,  John Boyd ,  Mikhail Korolik ,  Arthur M. Howald ,  William Thie ,  Praveen Nalla

发明人： Zhonghui Alex Wang ,  Tiruchirapalli Arunagirí ,  Fritz C. Redeker ,  Yezdi Dordi ,  John Boyd ,  Mikhail Korolik ,  Arthur M. Howald ,  William Thie ,  Praveen Nalla

IPC分类号： H01L21/24 ,  H01L21/40 ,  H01L21/31 ,  H01L21/469

CPC分类号： H01L21/02074

摘要： Methods for cleaning semiconductor wafers following chemical mechanical polishing are provided. An exemplary method exposes a wafer to a thermal treatment in an oxidizing environment followed by a thermal treatment in a reducing environment. The thermal treatment in the oxidizing environment both removes residues and oxidizes exposed copper surfaces to form a cupric oxide layer. The thermal treatment in the reducing environment then reduces the cupric oxide to elemental copper. This leaves the exposed copper clean and in condition for further processing, such as electroless plating.

摘要翻译： 提供了化学机械抛光后的半导体晶片清洗方法。 一种示例性方法将晶片暴露于氧化环境中的热处理，然后在还原环境中进行热处理。 在氧化环境中的热处理既去除残留物，又氧化暴露的铜表面以形成氧化铜层。 然后，在还原环境中的热处理将氧化铜还原为元素铜。 这使得暴露的铜清洁并进行进一步处理，例如化学镀。

公开(公告)号：US20120269987A1

公开(公告)日：2012-10-25

申请号：US13534366

申请日：2012-06-27

申请人： Yezdi Dordi ,  John Boyd ,  Tiruchirapalli Arunagiri ,  Hyungsuk Alexander Yoon ,  Fritz C. Redeker ,  William Thie ,  Arthur M. Howald

发明人： Yezdi Dordi ,  John Boyd ,  Tiruchirapalli Arunagiri ,  Hyungsuk Alexander Yoon ,  Fritz C. Redeker ,  William Thie ,  Arthur M. Howald

IPC分类号： C23C18/54 ,  C23C16/06 ,  B05D5/12

CPC分类号： H01L21/7685 ,  C23C18/1632 ,  C23C18/1651 ,  C23C18/1844 ,  H01L21/0206 ,  H01L21/02063 ,  H01L21/02068 ,  H01L21/02074 ,  H01L21/28518 ,  H01L21/288 ,  H01L21/32115 ,  H01L21/32135 ,  H01L21/32136 ,  H01L21/67161 ,  H01L21/67207 ,  H01L21/76814 ,  H01L21/7684 ,  H01L21/76843 ,  H01L21/76846 ,  H01L21/76849 ,  H01L21/76862 ,  H01L21/76867 ,  H01L21/76871 ,  H01L21/76879

摘要： An integrated system for processing a substrate in controlled environment to enable deposition of a thin copper seed layer on a surface of a metallic barrier layer of a copper interconnect is provided. The system includes a lab-ambient transfer chamber, a vacuum transfer chamber, a vacuum process module for cleaning an exposed surface of a metal oxide of a underlying metal, a vacuum process module for depositing the metallic barrier layer, and a controlled-ambient transfer chamber filled with an inert gas, wherein at least one controlled-ambient process module is coupled to the controlled-ambient transfer chamber. In addition, the system includes an electroless copper deposition process module used to deposit the thin layer of copper seed layer on the surface of the metallic barrier layer.

摘要翻译： 提供了一种用于在受控环境中处理衬底以使薄铜种子层在铜互连的金属阻挡层的表面上沉积的集成系统。 该系统包括实验室环境转移室，真空转移室，用于清洁下面金属的金属氧化物的暴露表面的真空处理模块，用于沉积金属阻挡层的真空处理模块和受控环境转移 室内装有惰性气体，其中至少一个受控环境的过程模块耦合到受控环境的传送室。 此外，该系统包括用于在金属阻挡层的表面上沉积铜籽晶层的薄层的无电铜沉积工艺模块。

公开(公告)号：US08747960B2

公开(公告)日：2014-06-10

申请号：US11513446

申请日：2006-08-30

申请人： Yezdi Dordi ,  John Boyd ,  Tiruchirapalli Arunagiri ,  Johan Vertommen ,  Fritz C. Redeker ,  William Thie ,  Arthur M. Howald

发明人： Yezdi Dordi ,  John Boyd ,  Tiruchirapalli Arunagiri ,  Johan Vertommen ,  Fritz C. Redeker ,  William Thie ,  Arthur M. Howald

IPC分类号： C23C14/02 ,  H05H1/00

CPC分类号： C23C18/1651 ,  C23C18/1893 ,  H01L21/0206 ,  H01L21/02063 ,  H01L21/02068 ,  H01L21/02074 ,  H01L21/28518 ,  H01L21/288 ,  H01L21/32115 ,  H01L21/32135 ,  H01L21/32136 ,  H01L21/67161 ,  H01L21/67207 ,  H01L21/76814 ,  H01L21/7684 ,  H01L21/76843 ,  H01L21/76846 ,  H01L21/76849 ,  H01L21/76862 ,  Y02P70/605

摘要： The embodiments fill the need to enhance electro-migration performance, provide lower metal resistivity, and improve silicon-to-metal interfacial adhesion for copper interconnects by providing improved processes and systems that produce a silicon-to-metal interface. An exemplary method of preparing a substrate surface of a substrate to selectively deposit a layer of a metal on a silicon or polysilicon surface of the substrate to form a metal silicide in an integrated system is provided. The method includes removing organic contaminants from the substrate surface in the integrated system, and reducing the silicon or polysilicon surface in the integrated system after removing organic contaminants to convert silicon oxide on the silicon or polysilicon surface to silicon, wherein after reducing the silicon or polysilicon surface, the substrate is transferred and processed in controlled environment to prevent the formation of silicon oxide, the silicon or polysilicon surface is reduced to increase the selectivity of the metal on the silicon surface. The method further includes selectively depositing the layer of the metal on the silicon or polysilicon surface of substrate in the integrated system after reducing the silicon or polysilicon surface. An exemplary system to practice the exemplary method described above is also provided.

摘要翻译： 这些实施方案通过提供产生硅 - 金属界面的改进的工艺和系统来满足增强电迁移性能，提供较低金属电阻率以及改进铜互连的硅 - 金属界面粘附的需要。 提供了制备衬底的衬底表面以在衬底的硅或多晶硅表面上选择性地沉积金属层以在集成系统中形成金属硅化物的示例性方法。 该方法包括从集成系统中的衬底表面去除有机污染物，以及在去除有机污染物之后减少集成系统中的硅或多晶硅表面，以将硅或多晶硅表面上的氧化硅转化为硅，其中在还原硅或多晶硅之后 表面，在受控环境中转移和处理衬底以防止形成氧化硅，减少硅或多晶硅表面以增加金属在硅表面上的选择性。 该方法还包括在减少硅或多晶硅表面之后，在集成系统中的衬底的硅或多晶硅表面上选择性地沉积金属层。 还提供了用于实践上述示例性方法的示例性系统。

公开(公告)号：US08241701B2

公开(公告)日：2012-08-14

申请号：US11514038

申请日：2006-08-30

申请人： Yezdi Dordi ,  John Boyd ,  Tiruchirapalli Arunagiri ,  Hyungsuk Alexander Yoon ,  Fritz C. Redeker ,  William Thie ,  Arthur M. Howald

发明人： Yezdi Dordi ,  John Boyd ,  Tiruchirapalli Arunagiri ,  Hyungsuk Alexander Yoon ,  Fritz C. Redeker ,  William Thie ,  Arthur M. Howald

IPC分类号： B05D5/12

CPC分类号： H01L21/7685 ,  C23C18/1632 ,  C23C18/1651 ,  C23C18/1844 ,  H01L21/0206 ,  H01L21/02063 ,  H01L21/02068 ,  H01L21/02074 ,  H01L21/28518 ,  H01L21/288 ,  H01L21/32115 ,  H01L21/32135 ,  H01L21/32136 ,  H01L21/67161 ,  H01L21/67207 ,  H01L21/76814 ,  H01L21/7684 ,  H01L21/76843 ,  H01L21/76846 ,  H01L21/76849 ,  H01L21/76862 ,  H01L21/76867 ,  H01L21/76871 ,  H01L21/76879

摘要： The embodiments fill the need to enhance electro-migration performance, provide lower metal resistivity, and improve metal-to-metal interfacial adhesion for copper interconnects by providing improved processes and systems that produce an improved metal-to-metal interface, more specifically barrier-to-copper interface. An exemplary method of preparing a substrate surface of a substrate to deposit a metallic barrier layer to line a copper interconnect structure of the substrate and to deposit a thin copper seed layer on a surface of the metallic barrier layer in an integrated system to improve electromigration performance of the copper interconnect is provided. The method includes cleaning an exposed surface of a underlying metal to remove surface metal oxide in the integrated system, wherein the underlying metal is part of a underlying interconnect electrically connected to the copper interconnect. The method also includes depositing the metallic barrier layer to line the copper interconnect structure in the integrated system, wherein after depositing the metallic barrier layer, the substrate is transferred and processed in controlled environment to prevent the formation of metallic barrier oxide. The method further includes depositing the thin copper seed layer in the integrated system, and depositing a gap-fill copper layer over the thin copper seed layer in the integrated system. An exemplary system to practice the exemplary method described above is also provided.

摘要翻译： 这些实施方案通过提供改进的工艺和系统来提供改进的金属 - 金属界面，更具体地说是阻隔层，提高了电迁移性能，提供较低的金属电阻率，以及改进铜互连的金属 - 金属界面粘附的需要， 到铜接口。 一种制备衬底的衬底表面的示例性方法，以沉积金属阻挡层以对衬底的铜互连结构进行排列并且在集成系统中在金属阻挡层的表面上沉积薄铜籽晶层以改善电迁移性能 的铜互连。 该方法包括清洁底层金属的暴露表面以去除集成系统中的表面金属氧化物，其中下面的金属是与铜互连电连接的底层互连件的一部分。 该方法还包括沉积金属阻挡层以在集成系统中对铜互连结构进行排列，其中在沉积金属阻挡层之后，将基底在受控环境中转移和加工以防止形成金属阻挡氧化物。 该方法还包括在集成系统中沉积薄铜籽晶层，以及在集成系统中的薄铜种子层上沉积间隙填充铜层。 还提供了用于实践上述示例性方法的示例性系统。

公开(公告)号：US20070292604A1

公开(公告)日：2007-12-20

申请号：US11513634

申请日：2006-08-30

申请人： Yezdi Dordi ,  John Boyd ,  Tiruchirapalli Arunagiri ,  Fritz C. Redeker ,  William Thie ,  Arthur M. Howald

发明人： Yezdi Dordi ,  John Boyd ,  Tiruchirapalli Arunagiri ,  Fritz C. Redeker ,  William Thie ,  Arthur M. Howald

IPC分类号： B05D3/00 ,  B05D5/12 ,  B05D1/18 ,  C04B41/00 ,  C23C14/00 ,  B05C13/02 ,  B29C71/04

CPC分类号： B05C13/02 ,  B05D3/002 ,  C23C18/1651 ,  C23C18/1851 ,  C23C18/1893 ,  H01L21/0206 ,  H01L21/02063 ,  H01L21/02068 ,  H01L21/02074 ,  H01L21/28518 ,  H01L21/288 ,  H01L21/32115 ,  H01L21/32135 ,  H01L21/32136 ,  H01L21/67161 ,  H01L21/67207 ,  H01L21/76814 ,  H01L21/7684 ,  H01L21/76843 ,  H01L21/76846 ,  H01L21/76849 ,  H01L21/76862

摘要： The embodiments fill the need to enhance electro-migration performance, provide lower metal resistivity, and improve metal-to-metal interfacial adhesion for copper interconnects by providing improved processes and systems that produce an improved metal-to-metal interface, more specifically copper-to-cobalt-alloy interface. An exemplary method of preparing a substrate surface of a substrate to selectively deposit a thin layer of a cobalt-alloy material on a copper surface of a copper interconnect of the substrate in an integrated system to improve electromigration performance of the copper interconnect is provided. The method includes removing contaminants and metal oxides from the substrate surface in the integrated system, and reconditioning the substrate surface using a reducing environment after removing contaminants and metal oxides in the integrated system. The method also includes selectively depositing the thin layer of cobalt-alloy material on the copper surface of the copper interconnect in the integrated system after reconditioning the substrate surface. An exemplary system to practice the exemplary method described above is also provided.

摘要翻译： 这些实施方案通过提供改进的工艺和系统来提供改进的金属 - 金属界面，更具体地说是铜 - 金属界面，从而满足增强电迁移性能，提供较低的金属电阻率以及改善铜互连的金属 - 金属界面粘附的需要， 钴合金界面。 提供了一种制备基板的基板表面的示例性方法，以在集成系统中选择性地在基板的铜互连的铜表面上沉积钴合金材料的薄层，以改善铜互连的电迁移性能。 该方法包括从集成系统中的衬底表面去除污染物和金属氧化物，并且在去除集成系统中的污染物和金属氧化物之后，使用还原环境来修复衬底表面。 该方法还包括在修复基板表面之后，在集成系统中的铜互连的铜表面上选择性地沉积钴合金材料的薄层。 还提供了用于实践上述示例性方法的示例性系统。

公开(公告)号：US20080152823A1

公开(公告)日：2008-06-26

申请号：US11643404

申请日：2006-12-20

申请人： John Boyd ,  Yezdi Dordi ,  Tiruchirapalli Arunagiri ,  William Thie ,  Fritz C. Redeker ,  Praveen Nalla

发明人： John Boyd ,  Yezdi Dordi ,  Tiruchirapalli Arunagiri ,  William Thie ,  Fritz C. Redeker ,  Praveen Nalla

IPC分类号： B05D1/18

CPC分类号： C23C18/1689 ,  C23C18/161 ,  C23C18/1653 ,  C23C18/1658 ,  C23C18/1683 ,  C23C18/31 ,  H01L21/288 ,  H01L21/76877

摘要： A self-limiting electroless plating process is provided to plate thin films with improved uniformity. The process comprises dispensing an electroless plating solution onto a substrate to form a quiescent solution layer from which a conformal plated layer plates onto a surface of the substrate by a redox reaction. The redox reaction occurs at the surface of the substrate between a reducing agent ion and a plating ion and produces an oxidized ion. Because the solution is quiescent, a boundary layer forms within the solution layer adjacent to the surface. The boundary layer is characterized by a concentration gradient of the oxidized ion. Diffusion of the reducing agent ion through the boundary layer controls the redox reaction. The quiescent solution layer can be maintained until the reducing agent ion in the solution layer is substantially depleted.

摘要翻译： 提供了一种自限制化学镀工艺，以平整薄膜，以均匀度提高。 该方法包括将化学镀溶液分配到基底上以形成静电溶液层，通过氧化还原反应从其中将共形镀层从该平板镀在基底的表面上。 氧化还原反应发生在还原剂离子和镀覆离子之间的衬底表面，并产生氧化离子。 因为溶液是静止的，所以在与表面相邻的溶液层内形成边界层。 边界层的特征在于氧化离子的浓度梯度。 还原剂离子通过边界层的扩散控制氧化还原反应。 可以维持静止溶液层，直到溶液层中的还原剂离子基本上被耗尽。

公开(公告)号：US20070292615A1

公开(公告)日：2007-12-20

申请号：US11513446

申请日：2006-08-30

申请人： Yezdi Dordi ,  John Boyd ,  Tiruchirapalli Arunagiri ,  Johan Vertommen ,  Fritz C. Redeker ,  William Thie ,  Arthur M. Howald

发明人： Yezdi Dordi ,  John Boyd ,  Tiruchirapalli Arunagiri ,  Johan Vertommen ,  Fritz C. Redeker ,  William Thie ,  Arthur M. Howald

IPC分类号： B05D3/00 ,  B05D1/18 ,  B29C71/04 ,  C23C16/00

CPC分类号： C23C18/1651 ,  C23C18/1893 ,  H01L21/0206 ,  H01L21/02063 ,  H01L21/02068 ,  H01L21/02074 ,  H01L21/28518 ,  H01L21/288 ,  H01L21/32115 ,  H01L21/32135 ,  H01L21/32136 ,  H01L21/67161 ,  H01L21/67207 ,  H01L21/76814 ,  H01L21/7684 ,  H01L21/76843 ,  H01L21/76846 ,  H01L21/76849 ,  H01L21/76862 ,  Y02P70/605

摘要： The embodiments fill the need to enhance electro-migration performance, provide lower metal resistivity, and improve silicon-to-metal interfacial adhesion for copper interconnects by providing improved processes and systems that produce a silicon-to-metal interface. An exemplary method of preparing a substrate surface of a substrate to selectively deposit a layer of a metal on a silicon or polysilicon surface of the substrate to form a metal silicide in an integrated system is provided. The method includes removing organic contaminants from the substrate surface in the integrated system, and reducing the silicon or polysilicon surface in the integrated system after removing organic contaminants to convert silicon oxide on the silicon or polysilicon surface to silicon, wherein after reducing the silicon or polysilicon surface, the substrate is transferred and processed in controlled environment to prevent the formation of silicon oxide, the silicon or polysilicon surface is reduced to increase the selectivity of the metal on the silicon surface. The method further includes selectively depositing the layer of the metal on the silicon or polysilicon surface of substrate in the integrated system after reducing the silicon or polysilicon surface. An exemplary system to practice the exemplary method described above is also provided.

摘要翻译： 这些实施方案通过提供产生硅 - 金属界面的改进的工艺和系统来满足增强电迁移性能，提供较低金属电阻率以及改进铜互连的硅 - 金属界面粘附的需要。 提供了制备衬底的衬底表面以在衬底的硅或多晶硅表面上选择性地沉积金属层以在集成系统中形成金属硅化物的示例性方法。 该方法包括从集成系统中的衬底表面去除有机污染物，以及在去除有机污染物之后减少集成系统中的硅或多晶硅表面，以将硅或多晶硅表面上的氧化硅转化为硅，其中在还原硅或多晶硅之后 表面，在受控环境中转移和处理衬底以防止形成氧化硅，减少硅或多晶硅表面以增加金属在硅表面上的选择性。 该方法还包括在减少硅或多晶硅表面之后，在集成系统中的衬底的硅或多晶硅表面上选择性地沉积金属层。 还提供了用于实践上述示例性方法的示例性系统。