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    • 32. 发明授权
    • Semiconductor device comprising copper interconnects with reduced in-line copper diffusion
    • 包括具有减少的在线铜扩散的铜互连的半导体器件
    • US06472755B1
    • 2002-10-29
    • US09688928
    • 2000-10-17
    • Minh Van NgoTakeshi Nogami
    • Minh Van NgoTakeshi Nogami
    • H01L2348
    • H01L23/53238H01L21/76826H01L21/76829H01L21/76834H01L21/76883H01L23/53233H01L2924/0002H01L2924/00
    • Cu diffusion between Cu and Cu alloy interconnect members, e.g., lines, in a silicon oxide inter-layer dielectric is avoided or substantially reduced by converting an upper portion of the silicon oxide inter-layer dielectric between neighboring lines to silicon oxynitride and then depositing a capping layer. Embodiments include filling damascene trenches in a silicon oxide inter-layer dielectric with Cu or a Cu alloy, CMP to effect planarization such that the upper surfaces of the lines are substantially coplanar with the upper surface of the inter-layer dielectric and treating the exposed surfaces with a high strength ammonia plasma to ion bombard the exposed inter line silicon oxide with nitrogen atoms, thereby converting the upper portion to silicon oxynitride, while simultaneously removing or substantially reducing surface oxides on the lines. A silicon nitride capping layer is then deposited.
    • 通过将相邻线路之间的氧化硅层间电介质的上部部分转换为氮氧化硅,然后沉积氧化硅层,从而避免或基本上减少氧化硅层间电介质中Cu和Cu合金互连构件(例如线)之间的Cu扩散 盖层 实施例包括用Cu或Cu合金填充氧化硅层间电介质中的镶嵌沟槽CMP,以实现平面化,使得线的上表面与层间电介质的上表面基本上共面并且处理暴露表面 用高强度氨等离子体离子轰击具有氮原子的暴露的线间氧化硅,从而将上部转化为氮氧化硅,同时除去或显着还原线上的表面氧化物。 然后沉积氮化硅覆盖层。
    • 34. 发明授权
    • Damascene processing employing low Si-SiON etch stop layer/arc
    • 使用低Si-SiON蚀刻停止层/电弧的镶嵌加工
    • US06459155B1
    • 2002-10-01
    • US09729528
    • 2000-12-05
    • Ramkumar SubramanianDawn M. HopperMinh Van Ngo
    • Ramkumar SubramanianDawn M. HopperMinh Van Ngo
    • H01L214763
    • H01L21/76829H01L21/0276H01L21/0332H01L21/76807
    • The dimensional accuracy of trench formation and, hence, metal line width, in damascene technology is improved by employing a low Si—SiON etch stop layer/ARC with reduced etch selectivity with respect to the overlying dielectric material but having a reduced extinction coefficient (k). Embodiments include via first-trench last dual damascene techniques employing a low Si—SiON middle etch stop layer/ARC having an extinction coefficient of about −0.3 to about −0.6, e.g., about −0.35, with reduced silicon and increased oxygen vis-à-vis a SiON etch stop layer having an extinction coefficient of about −1.1. Embodiments also include removing about 60% to about 90% of the low Si—SiON etch stop layer/ARC during trench formation, thereby reducing capacitance.
    • 通过使用低Si-SiON蚀刻停止层/ ARC,相对于上覆电介质材料具有降低的蚀刻选择性但具有降低的消光系数(k(k)),改善了镶嵌技术中沟槽形成的尺寸精度以及因此金属线宽度 )。 实施例包括通过第一沟槽最后的双镶嵌技术,其使用具有约-0.3至约-0.6,例如约-0.35的消光系数的低Si-SiON中间蚀刻停止层/ ARC,其中还原的硅和增加的氧相对于 - 具有约-1.1的消光系数的SiON蚀刻停止层。 实施例还包括在沟槽形成期间去除约60%至约90%的低Si-SiON蚀刻停止层/ ARC,从而降低电容。
    • 36. 发明授权
    • Insulating and capping structure with preservation of the low dielectric constant of the insulating layer
    • 绝缘和封盖结构保存绝缘层的低介电常数
    • US06383950B1
    • 2002-05-07
    • US09974568
    • 2001-10-10
    • Suzette K. PangrleMinh Van NgoSusan Tovar
    • Suzette K. PangrleMinh Van NgoSusan Tovar
    • H01L21469
    • H01L21/76801H01L21/76829
    • An insulating and capping structure of an integrated circuit is formed on a semiconductor wafer. An insulating layer is formed on the semiconductor wafer, and the insulating layer is comprised of a dielectric material having a low dielectric constant that is less than about 4.0 and having chemical bonds that are chemically reactive with a predetermined reactant. A reaction barrier layer is formed on the insulating layer, and the reaction barrier layer is comprised of a material that is not chemically reactive with the predetermined reactant. A capping layer is formed on the reaction barrier layer, and the capping layer is formed using the predetermined reactant. The reaction barrier layer prevents contact of the predetermined reactant with the insulating layer to prevent reaction of the predetermined reactant with the chemical bonds of the dielectric material of the insulating layer that are chemically reactive with the predetermined reactant such that the low dielectric constant of the dielectric material of the insulating layer is not increased by the formation of the capping layer. The present invention may be used to particular advantage when the predetermined reactant used for forming the capping layer and that is reactive with the insulating layer is oxygen plasma and when the reaction barrier layer is comprised of silicon nitride.
    • 在半导体晶片上形成集成电路的绝缘和封盖结构。 在半导体晶片上形成绝缘层,绝缘层由具有小于约4.0的低介电常数且具有与预定反应物发生化学反应的化学键的电介质材料构成。 在绝缘层上形成反应阻挡层,反应阻挡层由与预定反应物不具有化学反应性的材料构成。 在反应阻挡层上形成覆盖层,使用规定的反应物形成覆盖层。 反应阻挡层防止预定反应物与绝缘层的接触,以防止预定反应物与绝缘层的电介质材料与预定反应物发生化学反应的化学键的反应,使得电介质的低介电常数 通过形成覆盖层,绝缘层的材料不会增加。 当用于形成覆盖层并且与绝缘层反应的预定反应物是氧等离子体和当反应阻挡层由氮化硅构成时,本发明可以特别有用。
    • 38. 发明授权
    • Method of reducing in-line copper diffusion
    • 减少在线铜扩散的方法
    • US06335283B1
    • 2002-01-01
    • US09477719
    • 2000-01-05
    • Minh Van NgoTakeshi Nogami
    • Minh Van NgoTakeshi Nogami
    • H01L2144
    • H01L21/76834H01L21/76826H01L21/76829H01L21/76883
    • Cu diffusion between Cu and Cu alloy interconnect members, e.g., lines, in a silicon oxide inter-layer dielectric is avoided or substantially reduced by converting an upper portion of the silicon oxide inter-layer dielectric between neighboring lines to silicon oxynitride and then depositing a capping layer. Embodiments include filling damascene trenches in a silicon oxide inter-layer dielectric with Cu or a Cu alloy, CMP to effect planarization such that the upper surfaces of the lines are substantially coplanar with the upper surface of the inter-layer dielectric and treating the exposed surfaces with a nitrogen plasma of sufficient strength to ion bombard the exposed inter line silicon oxide with nitrogen, thereby converting the upper portion to silicon oxynitride, while simultaneously removing or substantially reducing surface oxides on the lines. A silicon nitride capping layer is then deposited.
    • 通过将相邻线路之间的氧化硅层间电介质的上部部分转换为氮氧化硅,然后沉积氧化硅层,从而避免或基本上减少氧化硅层间电介质中Cu和Cu合金互连构件(例如线)之间的Cu扩散 盖层 实施例包括用Cu或Cu合金填充氧化硅层间电介质中的镶嵌沟槽CMP,以实现平面化,使得线的上表面与层间电介质的上表面基本上共面并且处理暴露表面 具有足够强度的氮等离子体用氮气轰击暴露的线间氧化硅,从而将上部部分转化为氮氧化硅,同时除去或基本上还原管线上的表面氧化物。 然后沉积氮化硅覆盖层。