CN101490811B - 半导体装置的制造方法 - Google Patents
半导体装置的制造方法 Download PDFInfo
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- 229910052751 metal Inorganic materials 0.000 claims abstract description 84
- 239000002184 metal Substances 0.000 claims abstract description 84
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- 239000010949 copper Substances 0.000 claims abstract description 53
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 claims abstract description 51
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- PWHULOQIROXLJO-UHFFFAOYSA-N Manganese Chemical compound [Mn] PWHULOQIROXLJO-UHFFFAOYSA-N 0.000 description 14
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Abstract
本发明提供半导体装置的制造方法。形成半导体装置的阻挡膜。本发明通过在供给含有氧或氮的反应气体的同时,对以铜为主成分且添加有扩散性金属的合金靶进行溅射,形成以铜为主成分、含有规定量的扩散性金属且添加有反应气体的中间层(25)。因为扩散性金属的含有量被正确地控制,所以当对中间层(25)进行加热时,能够可靠地形成阻挡膜。此外,通过在中间层(25)中添加反应气体,使得扩散性金属的反应性变高,能够以比现有技术更低的加热温度形成阻挡膜。
Description
技术领域
本发明涉及成膜方法,特别涉及用于半导体装置的制造工序的成膜方法。
背景技术
历来,广泛地使用铜作为半导体元件的布线材料。铜与Al等其它布线材料相比,虽然具有电阻值低的优点,但因为其在氧化硅膜中或硅中的扩散快,所以在使用铜作为布线材料的情况下,需要在布线与氧化硅层之间形成用于防止铜扩散的阻挡膜(barrier film)。
已知在相同的真空槽中对铜靶和Mn靶进行溅射,在衬底表面上形成以铜为主要成分但添加有Mn的铜薄膜,之后,当加热该铜薄膜时,在薄膜与衬底的界面上析出氧化锰的薄膜,该薄膜作为阻挡膜发挥作用(例如参照非专利文献1)。
但是,因为在上述方法中是在相同的真空槽中对2种靶进行溅射,所以装置结构特殊,不能够使用现有的成膜装置。
此外,为了正确地控制铜薄膜中的Mn的添加量,必须逐一控制各靶的成膜速度,但由于在溅射中靶的表面状态会发生变化,所以难以保持成膜速度为一定。
当没有正确地控制Mn的添加量时,即使加热铜薄膜,氧化锰也不会析出,此外即使能够控制Mn的添加量,为了使氧化锰析出也需要高温加热衬底。
非专利文献1:“Applied Physics Letters”,(美国),2005年,87,041911
发明内容
发明要解决的问题
本发明是为了解决上述问题而完成的,其目的在于提供一种能够以简易的方法可靠地成膜阻挡膜的成膜方法。
用于解决课题的方法
为了解决上述问题,本发明的半导体装置的制造方法,通过溅射在处理对象物的孔的侧壁上形成以铜为主成分的薄膜,其中,该处理对象物具有:衬底;和配置在所述衬底表面上且形成有所述孔的第一绝缘膜,该半导体装置的制造方法,具有:中间层形成工序,向配置有:被添加有从包括过渡金属、Al、以及Mg的扩散性金属组中选择的至少一种以上的扩散性金属的靶、和所述处理对象物的真空槽,供给与所述扩散性金属反应并生成所述扩散性金属的氧化物或氮化物的反应气体、和溅射气体,向所述靶施加电压进行溅射,生成以铜为主成分且含有扩散性金属和反应性气体的中间层。
本发明的半导体装置的制造方法,其中,包括:蚀刻工序,在所述中间层形成工序之后,向所述靶施加比在所述中间层形成工序中施加的电压小的电压,向保持所述处理对象物的衬底夹具施加高频电压。
本发明的半导体装置的制造方法,其中,包括:加热工序,在所述蚀刻工序之后,对所述中间层进行加热,在所述孔的侧壁的表面上形成含有所述扩散性金属的氮化物或氧化物的阻挡膜,在所述阻挡膜表面上形成以铜为主成分的基底层。
本发明的半导体装置的制造方法,其中,金属布线的表面位于所述孔的底面,在所述蚀刻工序之后,使金属层在所述孔的底面和所述孔的侧壁上析出。
本发明的半导体装置的制造方法,其中,具有所述第一绝缘膜露出的沟的第二绝缘膜配置在所述第一绝缘膜上,在所述沟的底面上配置所述孔,所述中间层的形成工序在所述沟的侧壁和所述沟的底面上也形成所述中间层。
本发明的半导体装置的制造方法,其中,在所述蚀刻工序中,使在所述沟的底面上生长的所述中间层残留。
在本发明中,所谓“主成分”,是指含有50原子%以上的作为主成分的材料。即,以铜为主成分的中间层是指含有50原子%以上的铜的中间层,以铜为主成分的靶是指含有50原子%以上的铜的靶。
此外,在中间层形成工序中施加在衬底夹具上的高频电压与在蚀刻工序中施加在靶上的电压分别包括为0伏的情况。
本申请中使用的靶是以铜为主成分且添加有扩散性金属的合金靶,因为在处理对象物表面上生长的中间层的组成与合金靶的组成一致,所以能够正确地控制中间层中的扩散性金属的添加量。
在不使用合金靶,对铜靶(不含有扩散性金属的纯铜靶)和扩散性金属靶进行溅射的情况下,虽然也能够形成中间层,但是如上所述,难以正确地控制扩散性金属的添加量。
而且,因为扩散性金属的靶与合金靶相比,其机械强度较弱,所以在溅射中容易生成颗粒。并且,靶的交换时期必须与铜靶和扩散性靶的任何一方的交换时期匹配,与使用合金靶的情况相比,需要频繁地交换靶。
发明的效果
通过在中间层中添加反应气体,使得扩散性金属的反应性变高,能够以比现有技术低的温度形成阻挡膜。因为能够正确地控制中间层的扩散性金属的添加量,所以能够可靠地形成阻挡膜。因为能够可靠地形成阻挡膜,所以基底层和金属布线的铜不扩散,半导体装置的可靠性变高。根据本申请形成的阻挡膜不仅对铜具有阻挡性,因为将基底层牢固地粘接在处理对象物上,所以金属布线变得难以从处理对象物剥落。
附图说明
图1是对本发明中使用的成膜装置的一个例子进行说明的截面图。
图2中的(a)~(d)是用于说明半导体装置的制造工序的前半部分的截面图。
图3中的(a)、(b)是用于说明半导体装置的制造工序的后半部分的截面图。
图4是用于说明加热装置的截面图。
图5是半导体装置的立体图。
图6是表示氧流量与电阻率值变化率、薄层电阻(sheet resistance)值的面内分布的关系的图表。
附图标记的说明
10半导体装置
11处理对象物
14第一金属布线
21孔
22沟
25中间层
26第一绝缘膜
27第二绝缘膜
28基底层
29阻挡膜
32第二金属布线
具体实施方式
图2(a)的附图标记11表示本发明中使用的处理对象物。处理对象物11具有衬底12,在衬底12的表面上形成有沟,在该沟内配置有第一金属布线14。
在衬底12的配置有第一金属布线14的表面上配置有下部绝缘层15,在下部绝缘层15的表面上配置有第一保护膜16,以下部绝缘层15和第一保护膜16构成第一绝缘膜26。
在第一保护膜16的表面上配置有上部绝缘层17,在上部绝缘层17的表面上配置有第二保护膜18,以上部绝缘层17和第二保护膜18构成第二绝缘膜27。
在第一、第二绝缘膜26、27中在第一金属布线14的正上方的位置形成有贯通第一、第二绝缘膜26、27的贯通孔,第二绝缘膜27被构图,形成有通过与该贯通孔交叉的位置的沟22。
图2(a)的附图标记21表示作为贯通孔的贯通第一绝缘膜26的部分的孔,如上所述,因为沟22与贯通孔交叉,所以孔21的开口露出于沟22的底面上。
第一保护膜16被用作形成沟22时的上部绝缘层17的蚀刻阻止层(etching stopper),因此,第一保护膜16露出在沟22底面的孔21以外的部分上。
接着,使用该处理对象物11对制造半导体装置的本发明的制造方法进行说明。
图1的附图标记1表示本发明中使用的成膜装置的一例。
该成膜装置1具有:真空槽2;以及分别配制在真空槽2内部的衬底夹具7和靶5。
在真空槽2上连接有真空排气系统9和气体供给系统4,对真空槽2内部进行真空排气,在进行真空排气的同时从气体供给系统4导入溅射气体和在化学结构中含氮或氧的反应气体(例如,在反应气体为氧气的情况下,流量为0.1sccm以上5sccm以下),在真空槽2内部形成比大气压低的成膜气氛(例如全压力为10-4Pa以上10-1Pa以下)。
在将形成有沟22的面朝向靶5的状态下使衬底夹具7保持上述的处理对象物11。
在真空槽2的外部分别配置有溅射电源8和偏置电源6,靶5与溅射电源8连接,衬底夹具7与偏置电源6连接。
在真空槽2的外部配置有磁场形成单元3,使真空槽2为接地电位,在维持真空槽2内部的成膜气氛的同时,当向靶5施加负电压时,靶5被磁控溅射。
靶5为以铜为主成分且添加有规定量的锰(例如超过2原子%)的合金靶,当靶5被磁控溅射时,释放出由以铜为主成分且添加有锰的合金材料构成的溅射粒子。
释放出的溅射粒子和反应气体射入处理对象物11的形成有沟22的面,在该表面上生长在上述合金材料中含有反应气体的薄膜。
此时,在衬底夹具7上施加有高频电压(包括0V),向处理对象物11的形成有沟22的面上射入与高频电压的大小相应的量的等离子体,对在表面上的生长薄膜进行蚀刻。
负电压和高频电压的大小被设定为,使得假定薄膜不被蚀刻时的薄膜的膜厚生长速度(溅射速度)大于假定薄膜不生长而仅被蚀刻时的膜厚减少速度(蚀刻速度),如图2(b)所示,薄膜25在沟22的侧壁和底面上、孔21的侧壁和底面上、以及第二绝缘膜27的表面上生长(中间层形成工序)。
将向靶5的负电压的施加和向衬底夹具7的高频电压的施加持续规定时间,在薄膜25生长至规定膜厚时候,在持续进行溅射气体和反应气体的导入和真空排气的同时,以使得薄膜的蚀刻速度变大的方式调整施加在靶5和衬底夹具7上的电压。例如,使施加在靶5上的电压比薄膜生长到规定膜厚之前小,减少溅射粒子的释放量并使溅射速度下降。此外,也可以使施加在衬底夹具7上的电压比薄膜生长到规定膜厚之前大,增加等离子体入射量并使蚀刻速度增加。
因为等离子体大致垂直地射入孔21的底面,所以孔21的底面上的薄膜25被蚀刻,但是因为等离子体不垂直地射入孔21的侧壁和沟22的侧壁,所以薄膜25残留。
此时,施加在衬底夹具7上的高频电压、施加在靶5上的负电压和溅射气体的流量以在沟22的底面、和第二绝缘膜27的表面上残留薄膜25的方式设定,使高频电压的施加和负电压的施加持续规定时间,在中间层25从孔21的底面被除去并露出第一金属布线14时分别停止高频电压和负电压的施加(蚀刻工序)。
图2(c)表示蚀刻工序结束后的状态,虽然第一金属布线14的表面露出在孔21的底面上,但中间层25残留在孔21的侧壁、沟22的底面和侧壁、以及第二绝缘膜27的表面上。
孔21的侧壁、沟22的底面和侧壁、以及第二绝缘膜27的表面上的中间层25连续。虽然中间层25被从孔21的底面除去,但是孔21的侧壁上的中间层25在孔21的底面上与第一金属布线14的表面接触,如上所述,因为中间层25以铜为主成分,所以孔21的侧壁上的中间层25、沟22的底面和侧壁的中间层25、以及第二绝缘膜27的表面上的中间层25与各第一金属布线14电连接。
将此状态的处理对象物11浸渍在电解电镀液中,当向中间层25通电时,金属层31在位于第一金属布线14表面的孔21的底面的部分、和中间层25的表面上生长,沟22的内部和孔21的内部被金属层填充。图2(d)表示形成有金属层31的状态下的处理对象物11。
图4的附图标记35表示加热装置,加热装置35具有加热室36和与加热室36连接的真空排气系统37。启动真空排气系统37,在加热室36的内部形成真空气氛,在维持该真空气氛的状态下,将形成有金属层31的处理对象物11搬入加热室36。
在加热室36的内部配置有加热器38,向该加热器38通电,为了防止金属层31的氧化,在维持真空气氛的同时,以比上述中间层形成工序和蚀刻工序时升温的温度更高的温度(例如在350℃下进行2小时)对该处理对象物11进行加热,对金属层31进行退火处理。
锰在铜中的扩散速度较快,在进行退火处理时,当中间层25升温时,包含在中间层25中的锰扩散,分别到达孔21的侧壁、沟22的侧壁和底面、以及第二绝缘膜27的表面。
下部绝缘层15和第一保护膜16位于孔21的侧壁,上部绝缘层17和第二保护膜18位于沟22的侧壁,这里,第一、第二保护膜16、18由SiN这样的氮化物构成,下部绝缘层15和上部绝缘层17由SiO2这样的氧化物构成。
锰对于氮和氧的反应性比铜高,而且,通过在中间层25中添加上述的反应气体,使得反应性变得更高。
锰在第一保护膜16与中间层25的界面、以及第二保护膜18与中间层25的界面与包含在第一、第二保护膜16、18中的氮化物反应并析出氮化锰,并在下部绝缘层15与中间层25的界面、以及上部绝缘层17与中间层25的界面与包含在下部绝缘层15和上部绝缘层17中的氧化物反应并析出氧化锰。
这时,在反应气体包含氮的情况下,在各界面析出作为反应气体的氮与锰的反应物的氮化锰;在反应气体包含氧的情况下,在各界面析出作为反应气体的氧与锰的反应物的氧化锰。
因此,在第一保护膜16与中间层25的界面、以及第二保护膜18与中间层25的界面,析出氮化锰、或氮化锰与氧化锰双方并形成阻挡膜29;在下部绝缘层15与中间层25的界面、以及上部绝缘层17与中间层25的界面,析出氧化锰、或氧化锰与氮化锰双方并形成阻挡膜29(图3(a))。
在阻挡膜29被形成时,作为中间层25的主成分的铜、Mn和反应气体的一部分残留在阻挡膜29的表面上,该残留的中间层25成为基底层28。
基底层28与中间层25同样地以铜为主成分,虽然铜容易扩散至氧化硅和硅中,但是因为氧化锰和氮化锰具有遮蔽铜的扩散的性质,所以铜被阻挡膜29遮蔽,既不会侵入下部绝缘层15,也不会侵入上部绝缘层17。
接着,通过例如CMP(Chemical Mechanical Polishing:化学机械研磨)法对处理对象物11的形成有金属层31的面进行研磨,研磨除去金属层31直至露出第二绝缘层27的表面,于是沟22与沟22之间的金属层31被除去,填充在各沟22中的金属层31被相互分离,第二金属布线32被形成(图3(b))。
图3(b)、图5的附图标记10表示形成有第二金属布线32的半导体装置。孔21的内部保持填充有金属层31的状态,以填充有金属层31的孔21构成相互连接第一、第二金属布线14、32的接触孔33。
如上所述,因为在孔21的底面上没有形成中间层25,所以在接触孔33与第一金属布线14之间未形成阻挡层,第一、第二金属布线14、32之间的电阻较低。
包含氧化锰和氮化锰中任一方或两方的阻挡膜29,对SiO2、SiN等硅化合物,以及铜、铝等金属材料这两方的粘接性较高。
因为阻挡膜29位于以铜为主成分的基底层28与含有SiO2、SiN的第一、第二绝缘膜26、27之间,所以基底层28被牢固地固定在沟22的底面和侧壁、以及孔21的内壁上。因为基底层28与第二金属布线32的贴紧性较高,且第二金属布线32通过基底层28和阻挡膜29被固定在沟22内,所以难以从半导体装置10脱落。
以上,对在中间层形成工序之后进行蚀刻工序,使金属布线14露出在孔21的底面上的情况进行了说明,但本发明并不限定于此,只要第一、第二金属布线14、32之间的电阻降低为能够容许的程度,中间层25也可以残留在孔21的底面上。
以上,对令基底层为一层结构的情况进行了说明,但本发明并不限定于此。例如,也可以在真空槽2的内部除了配置合金靶5之外,另外配置高纯度的铜靶,在蚀刻工序结束之后,对高纯度铜靶进行溅射,层叠铜薄膜,层叠2层以上的基底层。
在此情况下,在蚀刻工序中,即使中间层25被从沟22的底面除去,中间层25被分裂,因为被分裂的中间层25通过生长在沟22的底面上的铜薄膜被电连接,所以能够通过电镀法形成填充沟22的金属层31。但是,当SiO2的膜露出在沟22的底面上时,因为铜从铜薄膜扩散,所以在此情况下,优选具有铜的遮蔽性的膜(例如SiN膜)位于第一绝缘膜26的表面上。
第一保护膜16的构成材料与上部绝缘层17相比,蚀刻速度较慢,在对上部绝缘层17进行构图时,如果能够作为蚀刻阻止层发挥作用,则不限定于SiN。
加热中间层25形成阻挡膜和基底层的加热工序也可以在形成金属层31之前进行,但是如果在形成金属层31之后进行,则中间层25的加热和金属层31的退火化被同时进行,不仅能够缩短制造时间,还能够不对处理对象物11施加多余的热损伤。
此外,在对合金靶进行溅射时,在被加热的温度下如果扩散性金属的氮化物或氧化物在处理对象物11与中间层25的界面析出,则没有必要特别设置对中间层25进行加热的工序。
以上,对使用添加有作为扩散性金属的Mn的合金靶(靶5)的情况进行了说明,但本发明不限定于此。
扩散性金属只要是在铜中的扩散速度快,且与氮或氧反应的金属的话,除了Mn以外,还能够使用Ti、Ta、Mo、W、V等各种过渡金属,以及Mg、Al等非过渡金属作为扩散性金属添加在靶5中。
这些过渡金属既可以单独地添加在合金靶5中,也可以添加2种以上。
合金靶5中的扩散性金属的添加量虽然没有特别限定,但是其添加量例如为1原子%以上40原子%以下。
反应气体只要是在化学结构中包含氧或氮,且与扩散性金属反应生成氧化物或氮化物的气体的话,没有特别限定,例如能够使用H2O、O3、CO、N2、NH3。这些反应气体既可以单独使用一种,也可以使用2种以上。
溅射气体没有特别限定,能够使用从包括Ar气体、Ne气体、Xe气体、和Kr气体的组中选择的惰性气体中的至少一种。
下部绝缘层15和上部绝缘层17的构成材料并不限定于由SiO2构成的情况,能够使用含有从包括SiO2、SiN、SiOC、和SiC构成的组中选择的至少一种以上的材料。
第一、第二金属布线14、32的构成材料没有特别限定,能够使用Cu、Al等各种导电性材料,但是因为基底层28以铜为主成分,所以考虑与基底层28的贴紧性,优选第二金属布线32的构成材料是以铜为主成分的材料,在第二金属布线32的构成材料以铜为主成分的情况下,考虑电气特性,优选第一金属布线14的构成材料是以铜为主成分的材料。
以上,对在第一绝缘膜26之上配置有第二绝缘膜27,且孔21位于第二绝缘膜27的沟22底面的处理对象物11进行了说明,但本发明并不限定于此。
例如,使用未形成有第二绝缘膜27、且第一绝缘膜26的表面露出的处理对象物11,制造半导体装置的情况也包括在本发明中。
在进行中间层形成工序和蚀刻工序时导入到真空槽2的反应气体的流量虽然没有特别限定,但是例如为0.1sccm以上5sccm以下,这时的真空槽2内部的压力例如为10-4Pa以上10-1Pa以下。
以上,对在中间层形成工序和蚀刻工序中使靶5的施加电压两阶段地减少的情况进行了说明,但本发明并不限定于此,既可以3次以上分阶段地使靶5的施加电压减少,也可以不是阶段地而是连续地使靶5的施加电压逐渐减少。同样地,既可以3次以上分阶段地使高频电压增加,也可以不是阶段地而是连续地使高频电压逐渐增加。
实施例
(贴紧性试验)
分别改变成膜气氛中的反应气体(O2、氧)的分压、和靶5的Mn添加量,进行中间层形成工序和蚀刻工序,形成中间层25,之后,以上述的工序制造成半导体装置10。这里,退火化的条件为:真空气氛的压力为6×10-6Pa,加热温度为350℃,加热时间为1小时。
在获得的半导体装置10的形成有第二金属布线32一侧的表面上,形成了栅状的损伤。在半导体元件10表面的形成有损伤的部分粘贴粘接带后将其剥离,观察第二金属布线32有无剥离。将其结果与氧分压和靶5的Mn添加量一起记载在下述表1中。
(表1)
表1:贴紧性试验
O2分压 | 0Pa | 不到10-3Pa | 10-3Pa以上10-2Pa以下 |
Mn:2原子% | × | × | ○ |
Mn:7原子% | × | × | × |
上述表1的“○”是未观察到第二金属布线32的剥离的情况,“×”表示观察到第二金属布线32的剥离的情况。
从上述表1明显可知,当Mn的添加量为2原子%以下,且氧气的分压不到10-3Pa时,贴紧性较差。从该实验结果能够确认到,如果Mn的添加量超过2原子%,且氧气的分压为10-3Pa以上,则第二金属布线32的贴紧性变高。
(电阻值)
使用Mn添加量为7原子%的靶,分别改变作为反应气体的氧气的流量,进行中间层形成工序和蚀刻工序,在形成中间层25之后,以上述的工序制造成半导体装置10。
对各半导体装置10的第一、第二金属布线14、32的电阻率和电阻值变化进行测定,其测定结果表示在图6的图表中。
从图6明显可知,即使增加氧气流量,也没有发现引起第一、第二金属布线14、32的布线电阻值增加这样的电阻率的上升。由此可知,即使在中间层形成工序和蚀刻工序中导入氧气,金属布线的电气特性也不会劣化。
Claims (5)
1.一种半导体装置的制造方法,通过溅射,在处理对象物的孔的侧壁上形成以铜为主成分的薄膜,该处理对象物具有:衬底;和配置在所述衬底表面上且形成有所述孔的第一绝缘膜,该半导体装置的制造方法,
具有:中间层形成工序,向配置有:被添加有从包括过渡金属、Al、以及Mg的扩散性金属组中选择的至少一种的扩散性金属的靶、和所述处理对象物的真空槽,供给与所述扩散性金属反应并生成所述扩散性金属的氧化物或氮化物的反应气体、和溅射气体,向所述靶施加电压进行溅射,生成以铜为主成分且含有所述扩散性金属和所述反应气体的中间层,
包括:蚀刻工序,在所述中间层形成工序之后,向所述靶施加比在所述中间层形成工序中施加的电压小的电压,向保持所述处理对象物的衬底夹具施加高频电压。
2.如权利要求1所述的半导体装置的制造方法,其中,
包括:加热工序,在所述蚀刻工序之后,对所述中间层进行加热,在所述孔的侧壁的表面上形成含有所述扩散性金属的氮化物或氧化物的阻挡膜,在所述阻挡膜表面上形成以铜为主成分的基底层。
3.如权利要求2所述的半导体装置的制造方法,其中,
金属布线的表面位于所述孔的底面,
在所述蚀刻工序之后,使金属层在所述孔的底面和所述孔的侧壁上析出。
4.如权利要求1所述的半导体装置的制造方法,其中,
具有所述第一绝缘膜露出的沟的第二绝缘膜配置在所述第一绝缘膜上,
在所述沟的底面上配置所述孔,
所述中间层的形成工序在所述沟的侧壁和所述沟的底面上也形成所述中间层。
5.如权利要求4所述的半导体装置的制造方法,其中,
在所述蚀刻工序中,使在所述沟的底面上生长的所述中间层残留。
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JP5343417B2 (ja) * | 2008-06-25 | 2013-11-13 | 富士通セミコンダクター株式会社 | 半導体装置およびその製造方法 |
JP5339830B2 (ja) * | 2008-09-22 | 2013-11-13 | 三菱マテリアル株式会社 | 密着性に優れた薄膜トランジスター用配線膜およびこの配線膜を形成するためのスパッタリングターゲット |
JP5466889B2 (ja) * | 2009-06-18 | 2014-04-09 | 東京エレクトロン株式会社 | 多層配線の形成方法 |
JP2013080779A (ja) * | 2011-10-03 | 2013-05-02 | Ulvac Japan Ltd | 半導体装置の製造方法、半導体装置 |
US9076661B2 (en) | 2012-04-13 | 2015-07-07 | Applied Materials, Inc. | Methods for manganese nitride integration |
US9048294B2 (en) | 2012-04-13 | 2015-06-02 | Applied Materials, Inc. | Methods for depositing manganese and manganese nitrides |
KR20150031239A (ko) * | 2012-06-18 | 2015-03-23 | 도쿄엘렉트론가부시키가이샤 | 망간 함유막의 형성 방법 |
TWI609095B (zh) * | 2013-05-30 | 2017-12-21 | 應用材料股份有限公司 | 用於氮化錳整合之方法 |
US9275952B2 (en) * | 2014-01-24 | 2016-03-01 | International Business Machines Corporation | Ultrathin superlattice of MnO/Mn/MnN and other metal oxide/metal/metal nitride liners and caps for copper low dielectric constant interconnects |
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JPWO2008007732A1 (ja) | 2009-12-10 |
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