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    • 1. 发明授权
    • Method of conditioning electrochemical baths in plating technology
    • 电镀技术中电化学浴的调理方法
    • US06893548B2
    • 2005-05-17
    • US09882208
    • 2001-06-13
    • Robin CheungDaniel A. CarlLiang-Yuh ChenYezdi DordiPaul F. SmithRatson MoradPeter HeyAshok Sinha
    • Robin CheungDaniel A. CarlLiang-Yuh ChenYezdi DordiPaul F. SmithRatson MoradPeter HeyAshok Sinha
    • C23C18/16C25D7/12C25D21/12C25D21/18C25D5/00
    • C25D21/18C23C18/1617C23C18/1683C25D21/12
    • An apparatus and method is provided for analyzing or conditioning an electrochemical bath. One aspect of the invention provides a method for analyzing an electrochemical bath in an electrochemical deposition process including providing a first electrochemical bath having a first bath composition, utilizing the first electrochemical bath in an electrochemical deposition process to form a second electrochemical bath having a second bath composition and analyzing the first and second compositions to identify one or more constituents generated in the electrochemical deposition process. Additive material having a composition that is substantially the same as all or at least some of the one or more constituents generated in the electrochemical deposition process may be added to another electrochemical bath to produce a desired chemical composition. The constituents may be added at the beginning of the use of the bath to initially condition the electrochemical bath or may be added, preferably either continuously or periodically, during the electrochemical deposition process.
    • 提供了一种用于分析或调理电化学浴的装置和方法。 本发明的一个方面提供了一种用于在电化学沉积方法中分析电化学浴的方法,包括提供具有第一浴组成的第一电化学浴,利用电化学沉积工艺中的第一电化学浴形成具有第二浴的第二电化学浴 组合和分析第一和第二组合物以鉴定在电化学沉积过程中产生的一种或多种成分。 具有与在电化学沉积工艺中产生的一种或多种成分中的全部或至少一些基本上相同的组成的添加剂材料可以加入到另一电化学浴中以产生所需的化学组成。 可以在使用浴的开始时添加组分以最初调节电化学浴,或者可以在电化学沉积过程期间连续地或周期性地添加。
    • 3. 发明申请
    • Semiconductor device interconnect fabricating techniques
    • 半导体器件互连制造技术
    • US20060063370A1
    • 2006-03-23
    • US10945664
    • 2004-09-21
    • Robin CheungAshok Sinha
    • Robin CheungAshok Sinha
    • H01L21/4763H01L21/44
    • H01L21/76885H01L21/288H01L21/2885H01L21/76834H01L21/7685H01L21/76852H01L2221/1089
    • The present invention provides methods for fabricating integrated circuit structures for use in semiconductor wafer fabrication techniques. A Cu diffusion barrier/Cu seed sandwich layer is deposited on a substrate. A first sacrificial layer, deposited on the sandwich layer, is developed to form a cavity. A first Cu layer is selectively deposited on the sandwich layer inside the cavity. A second sacrificial layer is deposited on the first sacrificial layer and on the first Cu layer. A cavity is formed in the second sacrificial layer, exposing at least a portion of the first Cu layer. A second Cu layer is selectively deposited in the second sacrificial layer cavity including the exposed portion of the first Cu layer. The combination of the first and second Cu layers forms a Cu component. Subsequently, the first and second sacrificial layers are removed resulting in a Cu component that is free standing on the sandwich layer, such that the top and sides of the component are exposed. Sandwich layer portions extending from the Cu component are removed from the substrate, thereby forming an exposed sandwich layer edge between the surface of the Cu component and the substrate. A Cu diffusion barrier layer is deposited on the Cu component and on the exposed edge of the sandwich layer, resulting in a Cu barrier layer encapsulated component. The encapsulated component is encased in a dielectric layer. Similarly, Cu components of the present invention are fabricated by means of selective electroless Cu deposition in a sacrificial layer cavity having a metal layer that is formed by selective electroless deposition of a metal on a sensitizer layer. Examples of Cu components and encapsulated Cu components of the present invention include vertical interconnects and inverted damascene structures.
    • 本发明提供用于制造用于半导体晶片制造技术的集成电路结构的方法。 在基底上沉积Cu扩散阻挡层/ Cu种子夹层。 沉积在夹心层上的第一牺牲层被开发以形成空腔。 第一Cu层被选择性地沉积在空腔内的夹层上。 在第一牺牲层和第一Cu层上沉积第二牺牲层。 在第二牺牲层中形成空腔,露出第一Cu层的至少一部分。 第二Cu层被选择性地沉积在包括第一Cu层的暴露部分的第二牺牲层腔中。 第一和第二Cu层的组合形成Cu组分。 随后,去除第一和第二牺牲层,导致在夹层上自由站立的Cu成分,使得部件的顶部和侧面被暴露。 从基板上除去从Cu成分延伸的夹层,从而在Cu成分的表面与基板之间形成露出的夹层结构。 在Cu组分和夹层的暴露边缘上沉积Cu扩散阻挡层,形成Cu阻挡层封装组分。 封装的组件被封装在电介质层中。 类似地,本发明的Cu组分通过选择性无电镀Cu沉积在具有金属层的牺牲层腔中制造,所述金属层通过金属在敏化剂层上的选择性无电沉积形成。 本发明的Cu组分和包封的Cu组分的实例包括垂直互连和反向镶嵌结构。
    • 4. 发明授权
    • Apparatus for electro-chemical deposition with thermal anneal chamber
    • 具有热退火室的电化学沉积设备
    • US6136163A
    • 2000-10-24
    • US263126
    • 1999-03-05
    • Robin CheungAshok SinhaAvi TepmanDan Carl
    • Robin CheungAshok SinhaAvi TepmanDan Carl
    • B65G49/07C25D7/12H01L21/00H01L21/02H01L21/288C25D17/00C25B9/00C25B15/00
    • H01L21/6723C25D17/001H01L21/67098
    • The present invention generally provides an electro-chemical deposition system that is designed with a flexible architecture that is expandable to accommodate future designs rules and gap fill requirements and provides satisfactory throughput to meet the demands of other processing systems. The electro-chemical deposition system generally comprises a mainframe having a mainframe wafer transfer robot, a loading station disposed in connection with the mainframe, a rapid thermal anneal chamber disposed adjacent the loading station, one or more processing cells disposed in connection with the mainframe, and an electrolyte supply fluidly connected to the one or more electrical processing cells. One aspect of the invention provides a post electrochemical deposition treatment, such as a rapid thermal anneal treatment, for enhancing deposition results. Preferably, the electro-chemical deposition system includes a system controller adapted to control the electro-chemical deposition process and the components of the electro-chemical deposition system, including the rapid thermal anneal chamber disposed adjacent the loading station.
    • 本发明通常提供一种电化学沉积系统,其被设计成具有可扩展以适应未来设计规则和间隙填充要求的柔性结构,并提供令人满意的吞吐量以满足其它处理系统的需求。 电化学沉积系统通常包括具有主机晶片传送机器人的主机,与主机连接设置的加载站,与加载站相邻设置的快速热退火室,与主机连接设置的一个或多个处理单元, 以及流体连接到所述一个或多个电处理单元的电解质供应。 本发明的一个方面提供了用于增强沉积结果的后电化学沉积处理,例如快速热退火处理。 优选地,电化学沉积系统包括适于控制电化学沉积过程和电化学沉积系统的部件的系统控制器,包括邻近加载站设置的快速热退火室。
    • 10. 发明申请
    • Activated species generator for rapid cycle deposition processes
    • 用于快速循环沉积工艺的活性物种发生器
    • US20060035025A1
    • 2006-02-16
    • US11146295
    • 2005-06-06
    • Donald VerplanckenAshok Sinha
    • Donald VerplanckenAshok Sinha
    • C23C14/00C23C16/00
    • C23C16/45542C23C16/452H01J37/32357
    • A method for providing activated species for a cyclical deposition process is provided herein. In one aspect, the method includes delivering a gas to be activated into a plasma generator, activating the gas to create a volume of reactive species, delivering a fraction of the reactive species into a processing region to react within a substrate therein, and maintaining at least a portion of the gas remaining in the plasma generator in an activated state after delivering the fraction of the gas into the process region. The plasma generator may include a high density plasma (HDP) generator, a microwave generator, a radio-frequency (RF) generator, an inductive-coupled plasma (ICP) generator, a capacitively coupled generator, or combinations thereof.
    • 本文提供了用于提供用于循环沉积工艺的活化物质的方法。 在一个方面,所述方法包括将待激活的气体输送到等离子体发生器中,激活气体以产生一定体积的反应物质,将一部分反应性物质输送到处理区域中以在其内部的基底内反应并维持在 在将一部分气体输送到处理区域中之后,剩余在等离子体发生器中的气体的至少一部分处于活化状态。 等离子体发生器可以包括高密度等离子体(HDP)发生器,微波发生器,射频(RF)发生器,感应耦合等离子体(ICP)发生器,电容耦合发生器或其组合。