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    • 3. 发明授权
    • Apparatus and method for electroless deposition of materials on semiconductor substrates
    • 在半导体衬底上无电沉积材料的装置和方法
    • US08906446B2
    • 2014-12-09
    • US13408039
    • 2012-02-29
    • Igor C. IvanovJonathan Weiguo ZhangArtur Kolics
    • Igor C. IvanovJonathan Weiguo ZhangArtur Kolics
    • C23C18/16H01L21/288
    • C23C18/1676C23C18/1628C23C18/163C23C18/1632C23C18/168C23C18/1682H01L21/288
    • An apparatus is provided having a closable chamber that can be sealed and is capable of withstanding an increased pressure and high temperature. The chamber has several inlet ports for the supply of various process liquids, such as deposition solutions, DI water for rinsing, etc., and a port for the supply of a gas under pressure. The apparatus also includes a solution heater and a control system for controlling temperature and pressure in the chamber. Uniform deposition is achieved by carrying out the deposition process under pressure and under temperature slightly below the boiling point of the solution. The solution can be supplied from above via a shower head formed in the cover, or through the bottom of the chamber. Rinsing or other auxiliary solutions are supplied via a radially moveable chemical dispensing arm that can be arranged above the substrate parallel thereto.
    • 提供一种装置,其具有能够被密封并且能够承受增加的压力和高温的可关闭室。 该室具有用于供应各种处理液体的多个入口,例如沉积溶液,用于冲洗的去离子水等,以及用于在压力下供应气体的端口。 该装置还包括解决方案加热器和用于控制室内的温度和压力的控制系统。 通过在压力下和稍低于溶液沸点的温度下进行沉积工艺来实现均匀沉积。 该解决方案可以从上面通过形成在盖中的淋浴喷头或者通过室的底部供应。 冲洗或其它辅助溶液经由可平行于其上的衬底上方的可径向移动的化学分配臂供应。
    • 6. 发明申请
    • Methods and System for Processing a Microelectronic Topography
    • 微电子地形处理方法与系统
    • US20110271905A1
    • 2011-11-10
    • US13185638
    • 2011-07-19
    • Igor C. IvanovWeiguo Zhang
    • Igor C. IvanovWeiguo Zhang
    • B05C11/00
    • H01L21/68728H01L21/67051H01L21/6708Y02P80/30
    • Methods and systems are provided which are adapted to process a microelectronic topography, particularly in association with an electroless deposition process. In general, the methods may include loading the topography into a chamber, closing the chamber to form an enclosed area, and supplying fluids to the enclosed area. In some embodiments, the fluids may fill the enclosed area. In addition or alternatively, a second enclosed area may be formed about the topography. As such, the provided system may be adapted to form different enclosed areas about a substrate holder. In some cases, the method may include agitating a solution to minimize the accumulation of bubbles upon a wafer during an electroless deposition process. As such, the system provided herein may include a means for agitating a solution in some embodiments. Such a means for agitation may be distinct from the inlet/s used to supply the solution to the chamber.
    • 提供了适于处理微电子拓扑的方法和系统,特别是与无电沉积工艺相关联。 通常,方法可以包括将形貌加载到腔室中,关闭腔室以形成封闭区域,并将流体供应到封闭区域。 在一些实施例中,流体可以填充封闭区域。 另外或替代地,围绕地形可以形成第二封闭区域。 因此,所提供的系统可以适于在基板保持器周围形成不同的封闭区域。 在一些情况下,该方法可以包括搅拌溶液以在无电沉积工艺期间使气泡在晶片上的累积最小化。 因此,本文提供的系统可以包括在一些实施例中用于搅拌溶液的装置。 用于搅拌的这种手段可能不同于用于将溶液供应到室的入口。
    • 8. 发明授权
    • Methods and systems for processing a microelectronic topography
    • 用于处理微电子拓扑的方法和系统
    • US07393414B2
    • 2008-07-01
    • US11102143
    • 2005-04-08
    • Igor C. IvanovWeiguo Zhang
    • Igor C. IvanovWeiguo Zhang
    • B05B1/28B05B15/12B05C11/02C25C14/00
    • H01L21/68728H01L21/67051H01L21/6708Y02P80/30
    • Methods and systems are provided which are adapted to process a microelectronic topography, particularly in association with an electroless deposition process. In general, the methods may include loading the topography into a chamber, closing the chamber to form an enclosed area, and supplying fluids to the enclosed area. In some embodiments, the fluids may fill the enclosed area. In addition or alternatively, a second enclosed area may be formed about the topography. As such, the provided system may be adapted to form different enclosed areas about a substrate holder. In some cases, the method may include agitating a solution to minimize the accumulation of bubbles upon a wafer during an electroless deposition process. As such, the system provided herein may include a means for agitating a solution in some embodiments. Such a means for agitation may be distinct from the inlet/s used to supply the solution to the chamber.
    • 提供了适于处理微电子拓扑的方法和系统,特别是与无电沉积工艺相关联。 通常,方法可以包括将形貌加载到腔室中,关闭腔室以形成封闭区域,并将流体供应到封闭区域。 在一些实施例中,流体可以填充封闭区域。 另外或替代地,围绕地形可以形成第二封闭区域。 因此,所提供的系统可以适于在基板保持器周围形成不同的封闭区域。 在一些情况下,该方法可以包括搅拌溶液以在无电沉积工艺期间使气泡在晶片上的累积最小化。 因此,本文提供的系统可以包括在一些实施例中用于搅拌溶液的装置。 用于搅拌的这种手段可能不同于用于将溶液供应到室的入口。
    • 10. 发明授权
    • Spatially-arranged chemical processing station
    • 空间化学处理站
    • US06939403B2
    • 2005-09-06
    • US10299069
    • 2002-11-19
    • Igor IvanovChiu TingJonathan Weiguo ZhangArthur Kolics
    • Igor IvanovChiu TingJonathan Weiguo ZhangArthur Kolics
    • H01L21/00H01L21/677B05C11/02
    • H01L21/67173H01L21/67017H01L21/67178H01L21/67769
    • The present invention discloses a station, e.g., for IC fabrication with a flexible configuration. It consists of an array of processing chambers, which are grouped into processing modules and arranged in a two-dimensional fashion, in vertical levels and horizontal rows, and is capable of operating independent of each other. Each processing chamber can perform electroless deposition and other related processing steps sequentially on a wafer with more than one processing fluid without having to remove it from the chamber. The system is served by a single common industrial robot, which may have random access to all the working chambers and cells of the storage unit for transporting wafers between the wafer cassettes and inlet/outlets ports of any of the chemical processing chambers. The station occupies a service-room floor space and a clean-room floor space. The processing modules and the main chemical management unit connected to the local chemical supply unit occupy a service-room floor space, while the robot and the wafer storage cassettes are located in a clean room. Thus, in distinction to the known cluster-tool machines, the station of the invention makes it possible to transfer part of the units from the expensive clean-room area to less-expensive service area.
    • 本发明公开了一种站,例如用于具有柔性配置的IC制造。 它由一系列处理室组成,它们分组成处理模块,并以垂直水平和水平行的二维方式布置,并且能够彼此独立运行。 每个处理室可以在具有多于一种处理流体的晶片上顺序地进行无电沉积和其它相关处理步骤,而不必将其从室中移除。 该系统由单个通用工业机器人服务,其可以随机访问存储单元的所有工作室和单元,用于在晶片盒之间传送晶片和任何化学处理室的入口/出口端口。 车站占用服务室的空间和洁净室的空间。 连接到本地化学品供应单元的处理模块和主要化学品管理单元占用服务室的空间,而机器人和晶片存储盒位于洁净室中。 因此,与已知的集群工具机器不同,本发明的工作站使得可以将部分单元从昂贵的清洁室区域转移到不太昂贵的服务区域。