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    • 1. 发明授权
    • Dual damascene integration scheme for preventing copper contamination of dielectric layer
    • 用于防止介电层铜污染的双镶嵌一体化方案
    • US06939793B1
    • 2005-09-06
    • US10422784
    • 2003-04-25
    • Lu YouFei WangChristy Woo
    • Lu YouFei WangChristy Woo
    • H01L21/768H01L23/522H01L23/532H01L21/4763
    • H01L21/76831H01L21/76804H01L21/76813H01L21/76832H01L21/76834H01L23/5226H01L23/53238H01L23/53295H01L2924/0002H01L2924/00
    • A semiconductor device includes a first metallization layer, a first diffusion barrier layer, a second etch stop layer, a first dielectric layer, a first etch stop layer, a second dielectric layer, a trench extending through the second dielectric layer and the first etch stop layer, and a via extending through the first dielectric layer, the second etch stop layer, and the first diffusion barrier layer. The first diffusion barrier layer is disposed over the first metallization layer. The second etch stop layer is disposed over and spaced from the first diffusion barrier layer, and the first dielectric layer is disposed over the second etch stop layer. The via can also have rounded corners. A third etch stop layer can also be disposed between the first diffusion barrier layer and the second etch stop layer. A sidewall diffusion barrier layer can be disposed on sidewalls of the via and trench, and the sidewall diffusion barrier layer is formed from the same material as the first diffusion barrier layer. A method of manufacturing the semiconductor device is also disclosed.
    • 半导体器件包括第一金属化层,第一扩散阻挡层,第二蚀刻停止层,第一介电层,第一蚀刻停止层,第二介电层,延伸穿过第二介电层的沟槽和第一蚀刻停止层 层,以及延伸穿过第一介电层,第二蚀刻停止层和第一扩散阻挡层的通孔。 第一扩散阻挡层设置在第一金属化层上。 第二蚀刻停止层设置在第一扩散阻挡层之上并与第一扩散阻挡层隔开,并且第一介电层设置在第二蚀刻停止层上。 通孔也可以有圆角。 第三蚀刻停止层也可以设置在第一扩散阻挡层和第二蚀刻停止层之间。 侧壁扩散阻挡层可以设置在通孔和沟槽的侧壁上,并且侧壁扩散阻挡层由与第一扩散阻挡层相同的材料形成。 还公开了制造半导体器件的方法。
    • 2. 发明授权
    • Dual damascene integration scheme for preventing copper contamination of dielectric layer
    • 用于防止介电层铜污染的双镶嵌一体化方案
    • US06586842B1
    • 2003-07-01
    • US09793993
    • 2001-02-28
    • Lu YouFei WangChristy Woo
    • Lu YouFei WangChristy Woo
    • H01L2352
    • H01L21/76831H01L21/76804H01L21/76813H01L21/76832H01L21/76834H01L23/5226H01L23/53238H01L23/53295H01L2924/0002H01L2924/00
    • A semiconductor device includes a first metallization layer, a first diffusion barrier layer, a second etch stop layer, a first dielectric layer, a first etch stop layer, a second dielectric layer, a trench extending through the second dielectric layer and the first etch stop layer, and a via extending through the first dielectric layer, the second etch stop layer, and the first diffusion barrier layer. The first diffusion barrier layer is disposed over the first metallization layer. The second etch stop layer is disposed over and spaced from the first diffusion barrier layer, and the first dielectric layer is disposed over the second etch stop layer. The via can also have rounded corners. A third etch stop layer can also be disposed between the first diffusion barrier layer and the second etch stop layer. A sidewall diffusion barrier layer can be disposed on sidewalls of the via and trench, and the sidewall diffusion barrier layer is formed from the same material as the first diffusion barrier layer. A method of manufacturing the semiconductor device is also disclosed.
    • 半导体器件包括第一金属化层,第一扩散阻挡层,第二蚀刻停止层,第一介电层,第一蚀刻停止层,第二介电层,延伸穿过第二介电层的沟槽和第一蚀刻停止层 层,以及延伸穿过第一介电层,第二蚀刻停止层和第一扩散阻挡层的通孔。 第一扩散阻挡层设置在第一金属化层上。 第二蚀刻停止层设置在第一扩散阻挡层之上并与第一扩散阻挡层隔开,并且第一介电层设置在第二蚀刻停止层上。 通孔也可以有圆角。 第三蚀刻停止层也可以设置在第一扩散阻挡层和第二蚀刻停止层之间。 侧壁扩散阻挡层可以设置在通孔和沟槽的侧壁上,并且侧壁扩散阻挡层由与第一扩散阻挡层相同的材料形成。 还公开了制造半导体器件的方法。
    • 3. 发明授权
    • Use of ta/tan for preventing copper contamination of low-k dielectric layers
    • 使用ta / tan来防止低k电介质层的铜污染
    • US06663787B1
    • 2003-12-16
    • US09776747
    • 2001-02-06
    • Lu YouChristy WooPin Chin Connie Wang
    • Lu YouChristy WooPin Chin Connie Wang
    • H01L214763
    • H01L21/76844H01L21/76802H01L21/76804H01L21/76813H01L21/76831H01L21/76838H01L21/76862H01L21/76865
    • A semiconductor device includes a first metallization level, a first diffusion barrier layer, a first etch stop layer, a dielectric layer and an opening extending through the dielectric layer, the first etch stop layer, and the first diffusion barrier layer. The first diffusion barrier layer is disposed over the first metallization level. The first etch stop layer is disposed over the first diffusion barrier layer, and the dielectric layer is disposed over the first etch stop layer. The opening can also have rounded corners. A sidewall diffusion barrier layer can be disposed on sidewalls of the opening, and the sidewall diffusion barrier layer is formed from the same material as the first diffusion barrier layer. The first etch stop layer can be formed from a material different than the first barrier layer, and the material of the first barrier layer can be selected from the group consisting of tantalum, titanium, tantalum nitride, titanium nitride, and tungsten nitride. Metal within the opening form a second metal feature, and the metal can comprise copper or a copper alloy. A method of manufacturing the semiconductor device is also disclosed.
    • 半导体器件包括第一金属化水平,第一扩散阻挡层,第一蚀刻停止层,电介质层和延伸穿过介电层的开口,第一蚀刻停止层和第一扩散阻挡层。 第一扩散阻挡层设置在第一金属化层上。 第一蚀刻停止层设置在第一扩散阻挡层上,并且电介质层设置在第一蚀刻停止层上。 开口也可以有圆角。 侧壁扩散阻挡层可以设置在开口的侧壁上,并且侧壁扩散阻挡层由与第一扩散阻挡层相同的材料形成。 第一蚀刻停止层可以由不同于第一阻挡层的材料形成,并且第一阻挡层的材料可以选自钽,钛,氮化钽,氮化钛和氮化钨。 开口内的金属形成第二金属特征,金属可以包括铜或铜合金。 还公开了制造半导体器件的方法。
    • 5. 发明授权
    • Damascene arrangement for metal interconnection using low k dielectric constant materials for etch stop layer
    • 用于蚀刻停止层的低k介电常数材料的金属互连的镶嵌装置
    • US06417090B1
    • 2002-07-09
    • US09225008
    • 1999-01-04
    • Fei WangLu You
    • Fei WangLu You
    • H01L214763
    • H01L21/76802H01L21/31116H01L21/31138H01L21/76829
    • A method of forming a damascene structure in a semiconductor device arrangement uses a low k dielectric material in an etch stop layer that overlays a metal interconnect layer. The etch stop layer protects the metal interconnect layer, made of copper, for example, during the etching of a dielectric layer that overlays the etch stop layer. Following the etching of the dielectric layer, which stops on the etch stop layer, the etch stop layer is then etched with a chemistry that does not damage the underlying copper in the metal interconnect layer. The lower dielectric constant material employed in the etch stop layer reduces the overall dielectric constant of the film, thereby improving the operating performance of the chip.
    • 在半导体器件布置中形成镶嵌结构的方法使用覆盖金属互连层的蚀刻停止层中的低k电介质材料。 蚀刻停止层例如在蚀刻覆盖在蚀刻停止层的介电层的蚀刻期间保护由铜制成的金属互连层。 在蚀刻停止层上停止的介电层的蚀刻之后,用不会损坏金属互连层中的下面的铜的化学物质蚀刻蚀刻停止层。 在蚀刻停止层中使用的较低介电常数材料降低了膜的总介电常数,从而提高了芯片的操作性能。
    • 6. 发明授权
    • Method for forming dual damascene interconnect structure
    • 双镶嵌互连结构的形成方法
    • US06756300B1
    • 2004-06-29
    • US10324259
    • 2002-12-18
    • Fei WangJerry ChengLynne A. OkadaMinh Quoc TranLu You
    • Fei WangJerry ChengLynne A. OkadaMinh Quoc TranLu You
    • H01L214763
    • H01L21/76811H01L21/76813
    • For forming a dual damascene opening within a dielectric material, a via mask material and a trench mask material are formed over the dielectric material. A trench opening is formed through the trench mask material, and a via opening is formed through a via mask patterning material disposed over the via and trench mask materials. The via and trench mask materials exposed through the via opening of the via mask patterning material are etched away, and the via mask patterning material is etched away. A portion of the dielectric material exposed through the via opening is etched down to the underlying interconnect structure, and a portion of the dielectric material exposed through the trench opening is etched, to form the dual damascene opening.
    • 为了在介电材料内形成双镶嵌开口,在电介质材料上形成通孔掩模材料和沟槽掩模材料。 通过沟槽掩模材料形成沟槽开口,并且通过布置在通孔和沟槽掩模材料上方的通孔掩模图案形成材料形成通孔开口。 通过通孔掩模图形材料的通路孔露出的通孔和沟槽掩模材料被蚀刻掉,并且通孔掩模图案材料被蚀刻掉。 通过通孔开口暴露的介电材料的一部分被蚀刻到下面的互连结构上,并且蚀刻通过沟槽开口露出的电介质材料的一部分,以形成双镶嵌开口。
    • 8. 发明授权
    • Interconnect with multiple layers of conductive material with grain boundary between the layers
    • 与层之间具有晶界的多层导电材料互连
    • US07001840B1
    • 2006-02-21
    • US10361332
    • 2003-02-10
    • Minh Quoc TranLu YouFei WangLynne Okada
    • Minh Quoc TranLu YouFei WangLynne Okada
    • H01L21/44
    • H01L21/76879H01L21/2885
    • An interconnect structure is formed with a plurality of layers of a conductive material with a grain boundary between any two adjacent layers of the conductive material. Such grain boundaries between layers of conductive material act as shunt by-pass paths for migration of atoms of the conductive material to minimize migration of atoms of the conductive material along the interface between a dielectric passivation or capping layer and the interconnect structure. When the interconnect structure is a via structure, each of the layers of the conductive material and each of the grain boundary are formed to be perpendicular to a direction of current flow through the via structure. Such grain boundaries formed between the plurality of layers of conductive material in the via structure minimize charge carrier wind-force along the direction of current flow through the via structure to further minimize electromigration failure of the via structure.
    • 互连结构形成有导电材料的多层,在导电材料的任何两个相邻层之间具有晶界。 导电材料层之间的这种晶界作为用于迁移导电材料的原子的分流旁通路径,以最小化导电材料原子沿着介电钝化层或覆盖层与互连结构之间的界面的迁移。 当互连结构是通孔结构时,导电材料的每个层和每个晶界形成为垂直于通过过孔结构的电流的方向。 在通孔结构中的多个导电材料层之间形成的这种晶界沿着通过通孔结构的电流流动的方向最小化载流子的风力,以进一步最小化通孔结构的电迁移故障。
    • 10. 发明授权
    • Use of SiO2/Sin for preventing copper contamination of low-k dielectric layers
    • 使用SiO2 / Sin来防止低k电介质层的铜污染
    • US06677679B1
    • 2004-01-13
    • US09776749
    • 2001-02-06
    • Lu YouFei WangDawn M. Hopper
    • Lu YouFei WangDawn M. Hopper
    • H01L214763
    • H01L21/76832H01L21/76802H01L21/76804H01L21/76807H01L21/76831H01L21/76834
    • A semiconductor device includes a first metallization level, a first diffusion barrier layer, a first etch stop layer, a second etch top layer, a dielectric layer and an opening extending through the dielectric layer, the first and second etch stop layers, and the first diffusion barrier layer. The first diffusion barrier layer is disposed over the first metallization level. The second etch stop layer is disposed over the first diffusion barrier layer, and the first etch stop layer is disposed on the second etch stop layer with a first interface therebetween. The dielectric layer is disposed over the first etch stop layer. The opening can also have rounded corners. A sidewall diffusion barrier layer can be disposed on sidewalls of the opening, and the sidewall diffusion barrier layer is formed from the same material as the first diffusion barrier layer. The first etch stop layer and the barrier diffusion layer can be formed from silicon nitride, and the second etch stop layer can be formed from silicon oxide. Metal within the opening forms a second metal feature, and the metal can comprise copper or a copper alloy. A method of manufacturing the semiconductor device is also disclosed.
    • 半导体器件包括第一金属化水平,第一扩散阻挡层,第一蚀刻停止层,第二蚀刻顶层,介电层和延伸穿过介电层的开口,第一和第二蚀刻停止层以及第一蚀刻停止层 扩散阻挡层。 第一扩散阻挡层设置在第一金属化层上。 第二蚀刻停止层设置在第一扩散阻挡层上,并且第一蚀刻停止层设置在第二蚀刻停止层上,其间具有第一界面。 介电层设置在第一蚀刻停止层上。 开口也可以有圆角。 侧壁扩散阻挡层可以设置在开口的侧壁上,并且侧壁扩散阻挡层由与第一扩散阻挡层相同的材料形成。 第一蚀刻停止层和阻挡扩散层可以由氮化硅形成,并且第二蚀刻停止层可以由氧化硅形成。 开口内的金属形成第二金属特征,金属可以包括铜或铜合金。 还公开了制造半导体器件的方法。