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    • 2. 发明授权
    • Dual cap layer in damascene interconnection processes
    • 大马士革互连工艺中的双盖层
    • US07129162B2
    • 2006-10-31
    • US10429119
    • 2003-05-02
    • Hyesook HongGuoqiang XingPing Jiang
    • Hyesook HongGuoqiang XingPing Jiang
    • H01L21/4763
    • H01L21/76832H01L21/76801H01L21/76802H01L21/76808
    • Damascene methods for forming copper conductors (30, 130) are disclosed. According to the disclosed method, a dual cap layer (18, 20; 122, 124) is formed over an organosilicate glass insulating layer (16; 116, 120) prior to the etching of a via or trench toward an underlying conductor (12; 112). The dual cap layer includes a layer of silicon carbide (18; 124) and a layer of silicon nitride (20; 122). The silicon carbide layer (18; 124) and silicon nitride layer (20; 122) can be deposited in either order relative to one another. The silicon carbide layer (18; 124) maintains the critical dimension of the via or trench as it is etched through the insulating layer (16; 116, 120), while the silicon nitride layer (20; 122) inhibits the failure mechanism of resist poisoning. The method is applicable to single damascene processes, but may also be used in dual damascene copper processes.
    • 公开了用于形成铜导体(30,130)的镶嵌方法。 根据所公开的方法,在将通孔或沟槽蚀刻到下面的导体(12;)之前,在有机硅酸盐玻璃绝缘层(16; 116,120)上形成双重覆盖层(18,20; 122,124)。 112)。 双盖层包括碳化硅层(18; 124)和氮化硅层(20; 122)。 碳化硅层(18; 124)和氮化硅层(20; 122)可以以相对于彼此的任何顺序沉积。 碳化硅层(18; 124)在蚀刻通过绝缘层(16; 116,120)时保持通孔或沟槽的临界尺寸,而氮化硅层(20; 122)抑制抗蚀剂的失效机理 中毒 该方法适用于单镶嵌工艺,但也可用于双镶嵌铜工艺。
    • 3. 发明申请
    • Plasma treatment for silicon-based dielectrics
    • 硅基电介质的等离子体处理
    • US20050255687A1
    • 2005-11-17
    • US10843957
    • 2004-05-11
    • Ping JiangHyesook HongTing TsuiRobert Kraft
    • Ping JiangHyesook HongTing TsuiRobert Kraft
    • H01L21/31H01L21/3105H01L21/316H01L21/4763H01L21/768
    • H01L21/02123H01L21/0234H01L21/3105H01L21/316H01L21/76807H01L21/76808
    • An embodiment of the invention is a method of manufacturing a semiconductor wafer. The method includes depositing spin-on-glass material over the semiconductor wafer (step 208), modifying a top surface of the spin-on glass material to form a SiO2 layer (step 210), applying a vapor prime (step 212), forming a photoresist layer over the spin-on-glass material (step 214), patterning the photoresist layer (step 214), and then etching the semiconductor wafer (step 216). Another embodiment of the invention is a method of manufacturing a dual damascene back-end layer on a semiconductor wafer. The method includes depositing spin-on-glass material over the dielectric layer and within the via holes (step 208), modifying a top surface of the spin-on glass material to form a SiO2 layer (step 210), applying a vapor prime (step 212), forming a photoresist layer over said spin-on-glass material (step 214), patterning the photoresist layer (step 214), and etching trench spaces (step 216).
    • 本发明的一个实施例是制造半导体晶片的方法。 该方法包括在半导体晶片上沉积旋涂玻璃材料(步骤208),修饰旋涂玻璃材料的顶表面以形成SiO 2层(步骤210),施加 蒸发(步骤212),在旋涂玻璃材料上形成光致抗蚀剂层(步骤214),图案化光致抗蚀剂层(步骤214),然后蚀刻半导体晶片(步骤216)。 本发明的另一实施例是在半导体晶片上制造双镶嵌后端层的方法。 该方法包括在电介质层上和通孔内沉积旋涂玻璃材料(步骤208),修饰旋涂玻璃材料的顶表面以形成SiO 2层(步骤 (步骤212),在所述旋涂玻璃材料上形成光致抗蚀剂层(步骤214),图案化光致抗蚀剂层(步骤214)和蚀刻沟槽空间(步骤216)。
    • 4. 发明授权
    • Plasma treatment for silicon-based dielectrics
    • 硅基电介质的等离子体处理
    • US07282436B2
    • 2007-10-16
    • US10843957
    • 2004-05-11
    • Ping JiangHyesook HongTing Yiu TsuiRobert Kraft
    • Ping JiangHyesook HongTing Yiu TsuiRobert Kraft
    • H01L21/4763
    • H01L21/02123H01L21/0234H01L21/3105H01L21/316H01L21/76807H01L21/76808
    • An embodiment of the invention is a method of manufacturing a semiconductor wafer. The method includes depositing spin-on-glass material over the semiconductor wafer (step 208), modifying a top surface of the spin-on glass material to form a SiO2 layer (step 210), applying a vapor prime (step 212), forming a photoresist layer over the spin-on-glass material (step 214), patterning the photoresist layer (step 214), and then etching the semiconductor wafer (step 216). Another embodiment of the invention is a method of manufacturing a dual damascene back-end layer on a semiconductor wafer. The method includes depositing spin-on-glass material over the dielectric layer and within the via holes (step 208), modifying a top surface of the spin-on glass material to form a SiO2 layer (step 210), applying a vapor prime (step 212), forming a photoresist layer over said spin-on-glass material (step 214), patterning the photoresist layer (step 214), and etching trench spaces (step 216).
    • 本发明的一个实施例是制造半导体晶片的方法。 该方法包括在半导体晶片上沉积旋涂玻璃材料(步骤208),修饰旋涂玻璃材料的顶表面以形成SiO 2层(步骤210),施加 蒸发(步骤212),在旋涂玻璃材料上形成光致抗蚀剂层(步骤214),图案化光致抗蚀剂层(步骤214),然后蚀刻半导体晶片(步骤216)。 本发明的另一实施例是在半导体晶片上制造双镶嵌后端层的方法。 该方法包括在电介质层上和通孔内沉积旋涂玻璃材料(步骤208),修饰旋涂玻璃材料的顶表面以形成SiO 2层(步骤 (步骤212),在所述旋涂玻璃材料上形成光致抗蚀剂层(步骤214),图案化光致抗蚀剂层(步骤214)和蚀刻沟槽空间(步骤216)。
    • 5. 发明授权
    • Methods for forming single damascene via or trench cavities and for forming dual damascene via cavities
    • 用于形成单镶嵌通孔或沟槽的方法以及通过空腔形成双镶嵌
    • US07214609B2
    • 2007-05-08
    • US10313491
    • 2002-12-05
    • Ping JiangRob KraftGuoqiang XingKaren H. R. KirmseEden Zielinski
    • Ping JiangRob KraftGuoqiang XingKaren H. R. KirmseEden Zielinski
    • H01L21/44H01L21/4763
    • H01L21/76808H01L21/76802
    • Methods are disclosed for forming trench or via cavities in a single damascene interconnect structure, comprising etching a dielectric layer to form a cavity there and to expose an underlying etch-stop layer, and etching the exposed etch-stop layer to extend the cavity and to expose a conductive feature in an existing interconnect structure, wherein etching the portion of the dielectric layer and etching the exposed portion of the etch-stop layer are performed concurrently with substantially no intervening processing steps therebetween. Also disclosed are methods of forming a via cavity in a dual damascene interconnect structure, comprising forming an etch-stop layer over an existing interconnect structure, forming a dielectric layer over the etch-stop layer, etching a portion of the dielectric layer to form a via cavity in the dielectric layer and to expose a portion of the etch-stop layer, and etching the etch-stop layer to extend the via cavity, where the dielectric layer is covered during etching of the etch-stop layer.
    • 公开了用于在单个镶嵌互连结构中形成沟槽或通孔腔的方法,包括蚀刻介电层以在其中形成空腔并暴露下面的蚀刻停止层,以及蚀刻暴露的蚀刻停止层以延伸空腔,并且 暴露现有互连结构中的导电特征,其中蚀刻介电层的一部分并蚀刻蚀刻停止层的暴露部分同时进行,其间基本上没有中间处理步骤。 还公开了在双镶嵌互连结构中形成通孔腔的方法,包括在现有互连结构上形成蚀刻停止层,在蚀刻停止层上形成电介质层,蚀刻介电层的一部分以形成 并且暴露蚀刻停止层的一部分,以及蚀刻蚀刻停止层以延伸通孔腔,其中介电层在蚀刻停止层的蚀刻期间被覆盖。