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    • 1. 发明授权
    • Method of fabricating semiconductor device with a gate-side air-gap
structure
    • 制造具有栅极侧气隙结构的半导体器件的方法
    • US6015746A
    • 2000-01-18
    • US056530
    • 1998-04-07
    • Wen-Kuan YehTony LinHeng-Sheng Huang
    • Wen-Kuan YehTony LinHeng-Sheng Huang
    • H01L21/336H01L29/423H01L29/49H01L21/3205H01L21/4763
    • H01L29/66583H01L29/4983H01L29/4991H01L29/42376H01L29/4238H01L29/665
    • A method of fabricating a semiconductor device. On a semiconductor substrate comprising a device isolation structure and an active region isolated by the device isolation region, an oxide layer is formed and etched on the active region to form an opening, so that the active within the opening is exposed. A first spacer is formed on a side wall of the opening. A gate oxide layer is formed on the active region within the opening. A conductive layer is formed on the gate oxide layer, so that the opening is filled thereby. The oxide layer is removed. The exposed active region is lightly doped to form a lightly doped region by using the conductive layer and the first spacer as a mask. A second spacer is formed on a side wall of the first spacer and leaves a portion of the first spacer to be exposed. The exposed active region is heavily doped to form a source/drain region by using the conductive layer, the first spacer, and the second spacer as a mask. The first spacer is removed to define a gate, so that an air gap between the gate and the second spacer is formed.
    • 一种制造半导体器件的方法。 在包括器件隔离结构和由器件隔离区隔离的有源区的半导体衬底上,在有源区上形成氧化层并蚀刻以形成开口,从而露出开口内的活性物质。 第一间隔件形成在开口的侧壁上。 栅极氧化层形成在开口内的有源区上。 在栅极氧化物层上形成导电层,从而填充开口。 去除氧化物层。 通过使用导电层和第一间隔物作为掩模,暴露的有源区域被轻掺杂以形成轻掺杂区域。 第二间隔件形成在第一间隔件的侧壁上并且留下待暴露的第一间隔件的一部分。 通过使用导电层,第一间隔件和第二间隔件作为掩模,暴露的有源区域被重掺杂以形成源极/漏极区域。 去除第一间隔物以限定栅极,从而形成栅极和第二间隔物之间​​的气隙。
    • 5. 发明授权
    • Method of manufacturing MOS device using anti reflective coating
    • 使用抗反射涂层制造MOS器件的方法
    • US6117743A
    • 2000-09-12
    • US203023
    • 1998-12-01
    • Wen-Kuan YehTony LinComing Chen
    • Wen-Kuan YehTony LinComing Chen
    • H01L21/027H01L21/28H01L21/336H01L29/49
    • H01L29/66575H01L21/0276H01L21/28061H01L21/28123H01L29/4941H01L29/66545Y10S438/952
    • A method of manufacturing MOS device including the steps of providing a semiconductor substrate that has a device isolation structure thereon, and then depositing a gate oxide layer, a polysilicon layer and an anti-reflection coating in sequence over the substrate. Next, a gate structure is patterned out of the gate oxide layer, the polysilicon layer and the anti-reflection coating. Then, spacers are formed on the sidewalls of the gate structure. Thereafter, a metal silicide layer is formed over source/drain regions. After that, an inter-layer dielectric (ILD) layer is formed over the gate structure and the entire substrate. Then, the inter-layer dielectric layer is planarized to expose the anti-reflection coating. Next, the anti-reflection coating is removed, and then a barrier layer is deposited over the inter-layer dielectric layer and the polysilicon layer. Subsequently, a conductive layer is deposited over the barrier layer. Finally, a chemical-mechanical polishing operation is carried out to planarize the conductive layer, retaining only the conductive layer above the polysilicon layer.
    • 一种制造MOS器件的方法,包括以下步骤:提供在其上具有器件隔离结构的半导体衬底,然后在衬底上依次沉积栅极氧化物层,多晶硅层和抗反射涂层。 接下来,栅极结构从栅极氧化物层,多晶硅层和抗反射涂层构图。 然后,在栅极结构的侧壁上形成间隔物。 此后,在源极/漏极区域上形成金属硅化物层。 之后,在栅极结构和整个衬底上形成层间介电层(ILD)层。 然后,层间电介质层被平坦化以暴露抗反射涂层。 接下来,去除防反射涂层,然后在层间电介质层和多晶硅层上沉积阻挡层。 随后,在阻挡层上沉积导电层。 最后,进行化学机械抛光操作以使导电层平坦化,仅在多晶硅层上保留导电层。
    • 7. 发明授权
    • Method for forming gate
    • 浇口形成方法
    • US06200870B1
    • 2001-03-13
    • US09189355
    • 1998-11-09
    • Wen-Kuan YehTony LinJih-Wen Chou
    • Wen-Kuan YehTony LinJih-Wen Chou
    • H01L21336
    • H01L29/6659H01L21/26586H01L21/28061H01L21/28247
    • A method for forming a gate that improves the quality of the gate includes sequentially forming a gate oxide layer, a polysilicon layer, a conductive layer and a masking layer on a substrate. Thereafter, the masking layer, the conductive layer, the polysilicon layer and the gate oxide layer are patterned to form the gate. Then, a passivation layer, for increasing the thermal stability and the chemical stability of the gate, is formed on the sidewall of the conductive layer by ion implantation with nitrogen cations. The nitrogen cations are doped into the substrate, under the gate oxide layer, by ion implantation, which can improve the penetration of the phosphorus ions.
    • 用于形成提高栅极质量的栅极的方法包括在衬底上顺序地形成栅极氧化物层,多晶硅层,导电层和掩模层。 此后,对掩模层,导电层,多晶硅层和栅极氧化物层进行图案化以形成栅极。 然后,通过用氮阳离子的离子注入,在导电层的侧壁上形成用于增加栅极的热稳定性和化学稳定性的钝化层。 氮阳离子通过离子注入在栅极氧化物层下方掺杂到衬底中,这可以改善磷离子的渗透。
    • 8. 发明授权
    • Method for forming a transistor with selective epitaxial growth film
    • 用选择性外延生长膜形成晶体管的方法
    • US06165857A
    • 2000-12-26
    • US469008
    • 1999-12-21
    • Wen-Kuan YehTony LinJih-Wen Chou
    • Wen-Kuan YehTony LinJih-Wen Chou
    • H01L21/28H01L21/336H01L29/417
    • H01L29/6659H01L21/28052H01L29/41775H01L29/665H01L29/6656H01L29/66628
    • A new improvement for selective epitaxial growth is disclosed. In one embodiment, the present invention provides a low power metal oxide semiconductor field effect transistor (MOSFET), which includes a substrate. Next, a gate oxide layer is formed on the substrate. Moreover, a polysilicon layer is deposited on the gate oxide layer. Patterning to etch the polysilicon layer and the gate oxide layer to define a gate. First ions are implanted into the substrate by using said gate as a hard mask. Sequentially, a liner oxide is covered over the entire exposed surface of the resulting structure. Moreover, a conformal first dielectric layer and second dielectric layer are deposited above the liner oxide in proper order. The second dielectric layer is etched back to form a dielectric spacer on sidewall of the first dielectric layer. Next, the first dielectric layer is etched until upper surface of the gate and a portion of the substrate are exposed, wherein a part of the second dielectric layer is also etched accompanying with etching a part of the first dielectric layer. Further, second ions are implanted into the exposed substrate to form a source/drain region. A conductive layer is selectively formed on said over the exposed gate and source/drain. Finally, a self-aligned silicide layer is formed over the conductive layer.
    • 公开了选择性外延生长的新改进。 在一个实施例中,本发明提供一种包括衬底的低功率金属氧化物半导体场效应晶体管(MOSFET)。 接着,在基板上形成栅极氧化层。 此外,在栅极氧化物层上沉积多晶硅层。 图案化以蚀刻多晶硅层和栅极氧化物层以限定栅极。 通过使用所述栅极作为硬掩模将第一离子注入到衬底中。 接下来,衬垫氧化物覆盖在所得结构的整个暴露表面上。 此外,适形的第一介电层和第二介电层以适当的顺序沉积在衬垫氧化物的上方。 回蚀第二电介质层以在第一电介质层的侧壁上形成电介质间隔物。 接下来,蚀刻第一电介质层直到栅极的上表面和衬底的一部分被暴露,其中第二电介质层的一部分也被蚀刻,同时蚀刻第一介电层的一部分。 此外,将第二离子注入暴露的衬底中以形成源/漏区。 在暴露的栅极和源极/漏极上的选择性地形成导电层。 最后,在导电层上形成自对准的硅化物层。
    • 10. 发明授权
    • Method of fabricating a metal-oxide-semiconductor transistor
    • 制造金属氧化物半导体晶体管的方法
    • US6022785A
    • 2000-02-08
    • US126462
    • 1998-07-30
    • Wen-Kuan YehTony Lin
    • Wen-Kuan YehTony Lin
    • H01L21/336H01L29/10H01L21/425
    • H01L29/6659H01L29/1083
    • The invention discloses a method of forming a metal-oxide-semiconductor transistor. The method provides a substrate, where a gate structure is formed thereon. Next, a first spacer is formed on the sidewall of the gate structure. A pair of heavily doped regions is formed in the substrate. Then, an annealing process is performed to make the doped ions in the heavily doped regions uniformly distributed. Next, the first spacer is removed and a thin pad dielectric layer is formed over the substrate. Next, a first type halo structure is formed in the bottom portion of the source/drain region beneath the gate structure. A lightly doped region is formed between the gate structure and the first type halo structure and above the first type halo structure. An etching process is performed on the pad dielectric layer to form a second spacer and then the MOS transitor is completed.
    • 本发明公开了一种形成金属氧化物半导体晶体管的方法。 该方法提供了其上形成栅极结构的衬底。 接下来,在栅极结构的侧壁上形成第一间隔物。 在衬底中形成一对重掺杂区域。 然后,进行退火处理以使重掺杂区域中的掺杂离子均匀分布。 接下来,去除第一间隔物,并在衬底上形成薄的衬垫介电层。 接下来,在栅极结构下面的源极/漏极区域的底部形成第一类型的晕结构。 在栅极结构和第一类型卤素结构之间并且在第一类型的晕结构之上形成轻掺杂区。 在焊盘电介质层上进行蚀刻处理以形成第二间隔物,然后完成MOS过渡电极。