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    • 2. 发明授权
    • Method of fabricating DRAM capacitor
    • 制造DRAM电容的方法
    • US06479344B2
    • 2002-11-12
    • US09542715
    • 2000-04-04
    • Kuo-Tai HuangWen-Yi HsiehTri-Rung Yew
    • Kuo-Tai HuangWen-Yi HsiehTri-Rung Yew
    • H01L218242
    • H01L28/75H01L21/28568H01L21/3211H01L27/10852H01L28/55
    • A method of fabricating a DRAM capacitor uses tungsten nitride in the process of forming a capacitor. The structure of the capacitor is simple and the process is easily executed. Furthermore, the invention provides a method of forming tungsten nitride, comprising a step of implanting nitrogen into a tungsten silicide layer and a step of executing a rapid thermal process under ammonia gas to form a tungsten nitride layer on the surface of the tungsten silicide layer. The method of fabricating a DRAM capacitor comprises forming the tungsten silicide layer after forming a part smaller than a bottom electrode of the capacitor from doped polysilicon and forming tungsten nitride on the surface of the tungsten nitride layer.
    • 制造DRAM电容器的方法在形成电容器的过程中使用氮化钨。 电容器的结构简单,易于执行。 此外,本发明提供了一种形成氮化钨的方法,包括将氮气注入到硅化钨层中的步骤以及在氨气下执行快速热处理以在硅化钨层的表面上形成氮化钨层的步骤。 制造DRAM电容器的方法包括在从掺杂多晶硅形成小于电容器的底部电极的部分之后形成硅化钨层,并在氮化钨层的表面上形成氮化钨。
    • 4. 发明授权
    • Method of fabricating DRAM capacitor
    • 制造DRAM电容的方法
    • US06218238B1
    • 2001-04-17
    • US09172458
    • 1998-10-14
    • Kuo-Tai HuangWen-Yi HsiehTri-Rung Yew
    • Kuo-Tai HuangWen-Yi HsiehTri-Rung Yew
    • H01L218242
    • H01L28/75H01L21/28568H01L21/3211H01L27/10852H01L28/55
    • A method of fabricating a DRAM capacitor uses tungsten nitride in the process of forming a capacitor. The structure of the capacitor is simple and the process is easily executed. Furthermore, the invention provides a method of forming tungsten nitride, comprising a step of implanting nitrogen into a tungsten silicide layer and a step of executing a rapid thermal process under ammonia gas to form a tungsten nitride layer on the surface of the tungsten silicide layer. The method of fabricating a DRAM capacitor comprises forming the tungsten silicide layer after forming a part smaller than a bottom electrode of the capacitor from doped polysilicon and forming tungsten nitride on the surface of the tungsten nitride layer.
    • 制造DRAM电容器的方法在形成电容器的过程中使用氮化钨。 电容器的结构简单,易于执行。 此外,本发明提供了一种形成氮化钨的方法,包括将氮气注入到硅化钨层中的步骤以及在氨气下执行快速热处理以在硅化钨层的表面上形成氮化钨层的步骤。 制造DRAM电容器的方法包括在从掺杂多晶硅形成小于电容器的底部电极的部分之后形成硅化钨层,并在氮化钨层的表面上形成氮化钨。
    • 8. 发明授权
    • Method for forming charge storage structure
    • 电荷储存结构形成方法
    • US5994183A
    • 1999-11-30
    • US996696
    • 1997-12-23
    • Kuo-Tai HuangWen-Yi HsiehTri-Rung Yew
    • Kuo-Tai HuangWen-Yi HsiehTri-Rung Yew
    • H01L21/02H01L21/285H01L21/768H01L21/8242H01L27/108
    • H01L28/60H01L21/28518H01L27/10852
    • A method for forming a high capacitance charge storage structure that can be applied to a substrate wafer having MOS transistor already formed thereon. The method is to form an insulating layer above the substrate wafer. Next, a contact window exposing a source/drain region is formed in the insulating layer. Then, a tungsten suicide layer, which functions as a lower electrode for the charge storage structure, is formed over the substrate. Thereafter, a tungsten nitride layer is formed over the tungsten silicide layer, and then a dielectric layer is formed over the tungsten nitride layer. The dielectric layer is preferably a tantalum oxide layer. Finally, a titanium nitride layer, which functions as an upper electrode for the charge storage structure, is formed over the tantalum oxide layer.
    • 一种用于形成可以应用于已经形成有MOS晶体管的衬底晶片的高电容电荷存储结构的方法。 该方法是在衬底晶片之上形成绝缘层。 接下来,在绝缘层中形成暴露源极/漏极区域的接触窗口。 然后,在基板上形成用作电荷存储结构的下电极的硅化钨层。 此后,在硅化钨层之上形成氮化钨层,然后在氮化钨层上形成电介质层。 电介质层优选为氧化钽层。 最后,在钽氧化物层上形成用作电荷存储结构的上电极的氮化钛层。
    • 9. 发明授权
    • Method for fabricating gate oxide layer
    • 栅极氧化层的制造方法
    • US06221712B1
    • 2001-04-24
    • US09385805
    • 1999-08-30
    • Kuo-Tai HuangMichael W C HuangTri-Rung Yew
    • Kuo-Tai HuangMichael W C HuangTri-Rung Yew
    • B32B1900
    • H01L21/28194C23C16/405H01L21/28088H01L21/31604H01L29/4966H01L29/517
    • A method for fabricating a gate structure. The method involves providing a substrate, followed by forming a nitride region on a surface of the substrate. With a Tantalum (Ta)-based organic compound and a Titanium (Ti)-based organic compound serving as precursors, an organic metal chemical vapor deposition (OMCVD) is performed, so that a Ta2−xTixO5 dielectric layer is formed on the substrate. A barrier layer, a conducting layer, and an anti-reflection (AR) layer are then formed in sequence on the Ta2−xTixO5 dielectric layer. Subsequently, the AR layer, the conducting layer, the barrier layer, and the Ta2−xTixO5 dielectric layer are defined to form a gate structure on the substrate of the nitride region. The Ta-based organic compound in this case may include a Ta-alkoxide compound, whereas the Ti-based organic compound may include a Ti-alkoxide compound or a Ti-amide compound.
    • 一种用于制造栅极结构的方法。 该方法包括提供衬底,随后在衬底的表面上形成氮化物区域。 使用钽(Ta)基有机化合物和作为前体的钛(Ti)基有机化合物,进行有机金属化学气相沉积(OMCVD),从而在衬底上形成Ta2-xTixO5电介质层。 然后依次在Ta2-xTixO5电介质层上形成阻挡层,导电层和抗反射(AR)层。 随后,将AR层,导电层,阻挡层和Ta2-xTixO5电介质层定义为在氮化物区域的衬底上形成栅极结构。 在这种情况下,Ta类有机化合物可以包括Ta-醇盐化合物,而Ti基有机化合物可以包括Ti-醇盐化合物或Ti-酰胺化合物。