公开(公告)号：US20100044236A1

公开(公告)日：2010-02-25

申请号：US12606030

申请日：2009-10-26

Applicant: Steven Mayer ,  Jingbin Feng ,  Zhian He ,  Jonathan Reid ,  Seshasayee Varadarajan

Inventor： Steven Mayer ,  Jingbin Feng ,  Zhian He ,  Jonathan Reid ,  Seshasayee Varadarajan

IPC: C25D5/00 ,  C25D17/00 ,  C25D21/12

CPC classification number: C25D17/12 ,  C23C18/1601 ,  C25D5/02 ,  C25D17/001 ,  C25D17/002 ,  C25D17/007 ,  C25D17/008 ,  C25D21/12 ,  C25D21/14 ,  C25F3/30 ,  H01L21/2885 ,  H01L21/32115 ,  H01L21/32125 ,  H01L21/6715 ,  H01L21/76873

Abstract: An apparatus for electroplating a layer of metal onto the surface of a wafer includes an ionically resistive ionically permeable element located in close proximity of the wafer and an auxiliary cathode located between the anode and the ionically resistive ionically permeable element. The ionically resistive ionically permeable element serves to modulate ionic current at the wafer surface. The auxiliary cathode is configured to shape the current distribution from the anode. The provided configuration effectively redistributes ionic current in the plating system allowing plating of uniform metal layers and mitigating the terminal effect.

Abstract translation: 用于将金属层电镀到晶片表面上的装置包括位于晶片附近的离子电离离子可渗透元件和位于阳极和离子电离性可离子渗透元件之间的辅助阴极。 离子电阻性离子渗透元件用于调节晶片表面处的离子电流。 辅助阴极被配置成使来自阳极的电流分布成形。 所提供的配置有效地重新分布电镀系统中的离子电流，允许电镀均匀的金属层并减轻终端效应。

公开(公告)号：US20100032310A1

公开(公告)日：2010-02-11

申请号：US12291356

申请日：2008-11-07

Applicant: Jonathan Reid ,  Bryan Buckalew ,  Zhian He ,  Seyang Park ,  Seshasayee Varadarajan ,  Bryan Pennington ,  Thomas Ponnuswamy ,  Patrick Breiling ,  Glenn Ibarreta ,  Steven Mayer

Inventor： Jonathan Reid ,  Bryan Buckalew ,  Zhian He ,  Seyang Park ,  Seshasayee Varadarajan ,  Bryan Pennington ,  Thomas Ponnuswamy ,  Patrick Breiling ,  Glenn Ibarreta ,  Steven Mayer

IPC: C25D3/00 ,  C25D17/00

CPC classification number: C25D17/008 ,  C25D7/123 ,  C25D17/001 ,  C25D17/007 ,  C25D21/12 ,  H01L21/2885 ,  H01L21/76873

Abstract: An apparatus for electroplating a layer of metal on the surface of a wafer includes an ionically resistive ionically permeable element located in close proximity of the wafer (preferably within 5 mm of the wafer surface) which serves to modulate ionic current at the wafer surface, and a second cathode configured to divert a portion of current from the wafer surface. The ionically resistive ionically permeable element in a preferred embodiment is a disk made of a resistive material having a plurality of perforations formed therein, such that perforations do not form communicating channels within the body of the disk. The provided configuration effectively redistributes ionic current in the plating system allowing plating of uniform metal layers and mitigating the terminal effect.

Abstract translation: 用于在晶片表面上电镀一层金属的装置包括位于晶片附近（优选地在晶片表面的5mm内）的离子电离性离子渗透元件，其用于调节晶片表面处的离子电流，以及 第二阴极，被配置为使来自晶片表面的一部分电流转向。 在优选实施例中的离子电阻性离子渗透元件是由电阻材料制成的盘，其中形成有多个穿孔，使得穿孔在盘的主体内不形成连通通道。 所提供的配置有效地重新分布电镀系统中的离子电流，允许电镀均匀的金属层并减轻终端效应。

公开(公告)号：US20070105377A1

公开(公告)日：2007-05-10

申请号：US11586394

申请日：2006-10-24

Applicant: Daniel Koos ,  Steven Mayer ,  Heung Park ,  Timothy Cleary ,  Thomas Mountsier

Inventor： Daniel Koos ,  Steven Mayer ,  Heung Park ,  Timothy Cleary ,  Thomas Mountsier

IPC: B05D5/12 ,  B05D3/04 ,  B05D3/10 ,  B05D1/18 ,  C23C16/00 ,  C23F1/00 ,  H01L21/302

CPC classification number: C23F1/18 ,  C23C18/1608 ,  C23C18/1689 ,  C23C18/1692 ,  C23C18/1696 ,  C23C18/1893 ,  C23F1/34 ,  H01L21/288 ,  H01L21/32134 ,  H01L21/76849 ,  H01L21/76856 ,  H01L21/76858 ,  H01L21/76883 ,  H01L23/53238 ,  H01L2924/0002 ,  H01L2924/00

Abstract: An etching process for selectively etching exposed metal surfaces of a substrate and forming a conductive capping layer over the metal surfaces is described. In some embodiments, the etching process involves oxidation of the exposed metal to form a metal oxide that is subsequently removed from the surface of the substrate. The exposed metal may be oxidized by using solutions containing oxidizing agents such as peroxides or by using oxidizing gases such as those containing oxygen or ozone. The metal oxide produced is then removed using suitable metal oxide etching agents such as glycine. The oxidation and etching may occur in the same solution. In other embodiments, the exposed metal is directly etched without forming a metal oxide. Suitable direct metal etching agents include any number of acidic solutions. The process allows for controlled oxidation and/or etching with reduced pitting. After the metal regions are etched and recessed in the substrate surface, a conductive capping layer is formed using electroless deposition over the recessed exposed metal regions.

Abstract translation: 描述了用于选择性地蚀刻衬底的暴露的金属表面并在金属表面上形成导电覆盖层的蚀刻工艺。 在一些实施例中，蚀刻工艺涉及暴露的金属的氧化以形成随后从衬底的表面去除的金属氧化物。 暴露的金属可以通过使用含有氧化剂如过氧化物的溶液或通过使用氧化气体例如含氧或臭氧的氧化气体来氧化。 然后使用合适的金属氧化物蚀刻剂如甘氨酸除去所产生的金属氧化物。 氧化和蚀刻可能发生在相同的溶液中。 在其它实施例中，暴露的金属被直接蚀刻而不形成金属氧化物。 合适的直接金属蚀刻剂包括任何数量的酸性溶液。 该方法允许减少点蚀的受控氧化和/或蚀刻。 在金属区域被蚀刻并凹入基板表面之后，使用无电沉积形成在凹入的暴露的金属区域上的导电覆盖层。

公开(公告)号：US20060011483A1

公开(公告)日：2006-01-19

申请号：US11228712

申请日：2005-09-16

Applicant: Steven Mayer ,  Vijay Bhaskaran ,  Evan Patton ,  Robert Jackson ,  Jonathan Reid

Inventor： Steven Mayer ,  Vijay Bhaskaran ,  Evan Patton ,  Robert Jackson ,  Jonathan Reid

IPC: C25D5/02

CPC classification number: C25D3/02 ,  C25D3/38 ,  C25D5/022 ,  C25D5/18 ,  H01L21/2885 ,  H01L21/76877 ,  H05K3/423

Abstract: Several techniques are described for reducing or mitigating the formation of seams and/or voids in electroplating the interior regions of microscopic recessed features. Cathodic polarization is used to mitigate the deleterious effects of introducing a substrate plated with a seed layer into an electroplating solution. Also described are diffusion-controlled electroplating techniques to provide for bottom-up filling of trenches and vias, avoiding thereby sidewalls growing together to create seams/voids. A preliminary plating step is also described that plates a thin film of conductor on the interior surfaces of features leading to adequate electrical conductivity to the feature bottom, facilitating bottom-up filling.

Abstract translation: 描述了几种用于减少或减轻在电镀微观凹陷特征的内部区域中的接缝和/或空隙的形成的技术。 阴极极化用于减轻将电镀有种子层的基板引入电镀溶液中的有害影响。 还描述了扩散控制的电镀技术，以提供沟槽和通孔的自下而上的填充，从而避免由此侧壁一起生长以产生接缝/空隙。 还描述了初步电镀步骤，在特征的内表面上镀覆导电薄膜，导致特征底部具有足够的导电性，便于自底向上填充。