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    • 1. 发明授权
    • Methods of forming carbon-containing layers
    • 形成含碳层的方法
    • US06251802B1
    • 2001-06-26
    • US09175051
    • 1998-10-19
    • John T. MooreGuy T. BlalockScott Jeffrey DeBoer
    • John T. MooreGuy T. BlalockScott Jeffrey DeBoer
    • H01L2131
    • H01L28/40H01L21/31116H01L21/3146Y10S438/924Y10S438/97
    • In one aspect, the invention includes an etching process, comprising: a) providing a first material over a substrate, the first material comprising from about 2% to about 20% carbon (by weight); b) providing a second material over the first material; and c) etching the second material at a faster rate than the first material. In another aspect, the invention includes a capacitor forming method, comprising: a) forming a wordline over a substrate; b) defining a node proximate the wordline; c) forming an etch stop layer over the wordline, the etch stop layer comprising carbon; d) forming an insulative layer over the etch stop layer; e) etching through the insulative layer to the etch stop layer to form an opening through the insulative layer; and e) forming a capacitor construction comprising a storage node, dielectric layer and second electrode, at least a portion of the capacitor construction being within the opening. In yet another aspect, the invention includes a semiconductive material assembly, comprising: a) a semiconductive substrate; and b) a layer over the semiconductive substrate, the layer comprising silicon, nitrogen and carbon.
    • 一方面,本发明包括蚀刻工艺,其包括:a)在衬底上提供第一材料,所述第一材料包含约2%至约20%的碳(重量); b)在第一材料上提供第二材料; 以及c)以比所述第一材料更快的速率蚀刻所述第二材料。 另一方面,本发明包括电容器形成方法,包括:a)在衬底上形成字线; b)定义靠近字线的节点; c)在所述字线上形成蚀刻停止层,所述蚀刻停止层包含碳; d)在所述蚀刻停止层上形成绝缘层; e)通过绝缘层蚀刻到蚀刻停止层以形成穿过绝缘层的开口; 以及e)形成包括存储节点,电介质层和第二电极的电容器结构,所述电容器结构的至少一部分在所述开口内。 在另一方面,本发明包括半导体材料组件,其包括:a)半导体衬底; 以及b)半导体衬底上的层,该层包含硅,氮和碳。
    • 2. 发明授权
    • Methods of forming capacitors
    • 形成电容器的方法
    • US06391710B1
    • 2002-05-21
    • US09602832
    • 2000-06-23
    • John T. MooreGuy T. BlalockScott Jeffrey DeBoer
    • John T. MooreGuy T. BlalockScott Jeffrey DeBoer
    • H01L218242
    • H01L28/40H01L21/31116H01L21/3146Y10S438/924Y10S438/97
    • In one aspect, the invention includes an etching process, comprising: a) providing a first material over a substrate, the first material comprising from about 2% to about 20% carbon (by weight); b) providing a second material over the first material; and c) etching the second material at a faster rate than the first material. In another aspect, the invention includes a capacitor forming method, comprising: a) forming a wordline over a substrate; b) defining a node proximate the wordline; c.) forming an etch stop layer over the wordline, the etch stop layer comprising carbon; d) forming an insulative layer over the etch stop layer; e) etching through the insulative layer to the etch stop layer to form an opening through the insulative layer; and e) forming a capacitor construction comprising a storage node, dielectric layer and second electrode, at least a portion of the capacitor construction being within the opening. In yet another aspect, the invention includes a semiconductive material assembly, comprising: a) a semiconductive substrate; and b) a layer over the semiconductive substrate, the layer comprising silicon, nitrogen and carbon.
    • 一方面,本发明包括蚀刻工艺,其包括:a)在衬底上提供第一材料,所述第一材料包含约2%至约20%的碳(重量); b)在第一材料上提供第二材料; 以及c)以比所述第一材料更快的速率蚀刻所述第二材料。 另一方面,本发明包括电容器形成方法,包括:a)在衬底上形成字线; b)定义靠近字线的节点; c)在所述字线上形成蚀刻停止层,所述蚀刻停止层包含碳; d)在所述蚀刻停止层上形成绝缘层; e)通过绝缘层蚀刻到蚀刻停止层以形成穿过绝缘层的开口; 以及e)形成包括存储节点,电介质层和第二电极的电容器结构,所述电容器结构的至少一部分在所述开口内。 在另一方面,本发明包括半导体材料组件,其包括:a)半导体衬底; 以及b)半导体衬底上的层,该层包含硅,氮和碳。
    • 3. 发明授权
    • Capacitor constructions, DRAM constructions, and semiconductive material assemblies
    • 电容器结构,DRAM结构和半导体材料组件
    • US07115926B1
    • 2006-10-03
    • US09603147
    • 2000-06-23
    • John T. MooreGuy T. BlalockScott Jeffrey DeBoer
    • John T. MooreGuy T. BlalockScott Jeffrey DeBoer
    • H01L27/108
    • H01L28/40H01L21/31116H01L21/3146Y10S438/924Y10S438/97
    • In one aspect, the invention includes an etching process, comprising: a) providing a first material over a substrate, the first material comprising from about 2% to about 20% carbon (by weight); b) providing a second material over the first material; and c) etching the second material at a faster rate than the first material. In another aspect, the invention includes a capacitor forming method, comprising: a) forming a wordline over a substrate; b) defining a node proximate the wordline; c) forming an etch stop layer over the wordline, the etch stop layer comprising carbon; d) forming an insulative layer over the etch stop layer; e) etching through the insulative layer to the etch stop layer to form an opening through the insulative layer; and e) forming a capacitor construction comprising a storage node, dielectric layer and second electrode, at least a portion of the capacitor construction being within the opening. In yet another aspect, the invention includes a semiconductive material assembly, comprising: a) a semiconductive substrate; and b) a layer over the semiconductive substrate, the layer comprising silicon, nitrogen and carbon.
    • 一方面,本发明包括蚀刻工艺,其包括:a)在衬底上提供第一材料,所述第一材料包含约2%至约20%的碳(重量); b)在第一材料上提供第二材料; 以及c)以比所述第一材料更快的速率蚀刻所述第二材料。 另一方面,本发明包括电容器形成方法,包括:a)在衬底上形成字线; b)定义靠近字线的节点; c)在所述字线上形成蚀刻停止层,所述蚀刻停止层包含碳; d)在所述蚀刻停止层上形成绝缘层; e)通过绝缘层蚀刻到蚀刻停止层以形成穿过绝缘层的开口; 以及e)形成包括存储节点,电介质层和第二电极的电容器结构,所述电容器结构的至少一部分在所述开口内。 在另一方面,本发明包括半导体材料组件,其包括:a)半导体衬底; 以及b)半导体衬底上的层,该层包含硅,氮和碳。
    • 4. 发明授权
    • Methods of forming materials within openings, and methods of forming isolation regions
    • 在开口内形成材料的方法,以及形成隔离区域的方法
    • US06884725B2
    • 2005-04-26
    • US10145562
    • 2002-05-14
    • John T. MooreGuy T. Blalock
    • John T. MooreGuy T. Blalock
    • H01L21/3105H01L21/76H01L21/762H01L21/461
    • H01L21/76235H01L21/31053
    • In one aspect, the invention includes a method of forming a material within an opening, comprising: a) forming an etch-stop layer over a substrate, the etch-stop layer having an opening extending therethrough to expose a portion of the underlying substrate and comprising an upper corner at a periphery of the opening, the upper corner having a corner angle with a first degree of sharpness; b) reducing the sharpness of the corner angle to a second degree; c) after reducing the sharpness, forming a layer of material within the opening and over the etch-stop layer; and d) planarizing the material with a method selective for the material relative to the etch-stop layer to remove the material from over the etch-stop layer while leaving the material within the opening.
    • 在一个方面,本发明包括在开口内形成材料的方法,包括:a)在衬底上形成蚀刻停止层,所述蚀刻停止层具有穿过其中的开口以暴露下面的衬底的一部分,以及 包括在所述开口的周边的上角,所述上角具有第一锐度锐角的角角; b)将角角的锐度降低到第二程度; c)在降低锐度之后,在开口内和蚀刻停止层上方形成材料层; 以及d)使用材料相对于蚀刻停止层选择性的方法对材料进行平面化,以将材料从蚀刻停止层上方移除,同时将材料留在开口内。
    • 5. 发明授权
    • Semiconductor structures
    • 半导体结构
    • US07358587B2
    • 2008-04-15
    • US11115833
    • 2005-04-25
    • John T. MooreGuy T. Blalock
    • John T. MooreGuy T. Blalock
    • H01L21/76
    • H01L21/76235H01L21/31053
    • In one aspect, the invention includes a method of forming a material within an opening, comprising: a) forming an etch-stop layer over a substrate, the etch-stop layer having an opening extending therethrough to expose a portion of the underlying substrate and comprising an upper corner at a periphery of the opening, the upper corner having a corner angle with a first degree of sharpness; b) reducing the sharpness of the corner angle to a second degree; c) after reducing the sharpness, forming a layer of material within the opening and over the etch-stop layer; and d) planarizing the material with a method selective for the material relative to the etch-stop layer to remove the material from over the etch-stop layer while leaving the material within the opening.
    • 在一个方面,本发明包括在开口内形成材料的方法,包括:a)在衬底上形成蚀刻停止层,所述蚀刻停止层具有穿过其中的开口以暴露下面的衬底的一部分, 包括在所述开口的周边的上角,所述上角具有第一锐度锐角的角角; b)将角角的锐度降低到第二程度; c)在降低锐度之后,在开口内和蚀刻停止层上方形成材料层; 以及d)使用材料相对于蚀刻停止层选择性的方法对材料进行平面化,以将材料从蚀刻停止层上方移除,同时将材料留在开口内。
    • 7. 发明授权
    • Methods of forming materials within openings, and method of forming isolation regions
    • 在开口内形成材料的方法,以及形成隔离区域的方法
    • US06274498B1
    • 2001-08-14
    • US09146730
    • 1998-09-03
    • John T. MooreGuy T. Blalock
    • John T. MooreGuy T. Blalock
    • H01L21461
    • H01L21/76235H01L21/31053
    • In one aspect, the invention includes a method of forming a material within an opening, comprising: a) forming an etch-stop layer over a substrate, the etch-stop layer having an opening extending therethrough to expose a portion of the underlying substrate and comprising an upper corner at a periphery of the opening, the upper corner having a corner angle with a first degree of sharpness; b) reducing the sharpness of the corner angle to a second degree; c) after reducing the sharpness, forming a layer of material within the opening and over the etch-stop layer; and d) planarizing the material with a method selective for the material relative to the etch-stop layer to remove the material from over the etch-stop layer while leaving the material within the opening.
    • 在一个方面,本发明包括在开口内形成材料的方法,包括:a)在衬底上形成蚀刻停止层,所述蚀刻停止层具有穿过其中的开口以暴露下面的衬底的一部分, 包括在所述开口的周边的上角,所述上角具有第一锐度锐角的角角; b)将角角的锐度降低到第二程度; c)在降低锐度之后,在开口内和蚀刻停止层上方形成材料层; 以及d)使用材料相对于蚀刻停止层选择性的方法对材料进行平面化,以将材料从蚀刻停止层上方移除,同时将材料留在开口内。
    • 8. 发明授权
    • Gated semiconductor assemblies and methods of forming gated semiconductor assemblies
    • 门控半导体组件和形成门控半导体组件的方法
    • US07141850B2
    • 2006-11-28
    • US10769573
    • 2004-01-30
    • Mark A. HelmMark FischerJohn T. MooreScott Jeffrey DeBoer
    • Mark A. HelmMark FischerJohn T. MooreScott Jeffrey DeBoer
    • H01L29/792
    • H01L29/7881H01L21/28273H01L29/511
    • In one aspect, the invention includes a method of forming a gated semiconductor assembly, comprising: a) forming a silicon nitride layer over and against a floating gate; and b) forming a control gate over the silicon nitride layer. In another aspect, the invention includes a method of forming a gated semiconductor assembly, comprising: a) forming a floating gate layer over a substrate; b) forming a silicon nitride layer over the floating gate layer, the silicon nitride layer comprising a first portion and a second portion elevationally displaced from the first portion, the first portion having a greater stoichiometric amount of silicon than the second portion; and c) forming a control gate over the silicon nitride layer. In yet another aspect, the invention includes a gated semiconductor assembly comprising: a) a substrate; b) a floating gate over the substrate; c) a control gate over the floating gate; and d) an electron barrier layer between the floating gate and the control gate, the electron barrier layer comprising a silicon nitride layer, the silicon nitride layer comprising a first portion and a second portion elevationally displaced from the first portion, the first portion having a greater stoichiometric amount of silicon than the second portion.
    • 一方面,本发明包括一种形成门控半导体组件的方法,包括:a)在浮动栅极上形成氮化硅层; 以及b)在所述氮化硅层上形成控制栅极。 另一方面,本发明包括形成门控半导体组件的方法,包括:a)在衬底上形成浮栅; b)在所述浮栅上形成氮化硅层,所述氮化硅层包括从所述第一部分向前倾斜的第一部分和第二部分,所述第一部分具有比所述第二部分更大的化学计量的硅量; 以及c)在所述氮化硅层上形成控制栅极。 在另一方面,本发明包括门控半导体组件,其包括:a)衬底; b)衬底上的浮栅; c)浮动门上的控制门; 以及d)在所述浮动栅极和所述控制栅极之间的电子势垒层,所述电子势垒层包括氮化硅层,所述氮化硅层包括第一部分和从所述第一部分向上偏移的第二部分,所述第一部分具有 比第二部分更大的化学计量的硅。