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    Method of forming a gate of a semiconductor device
    1.
    发明申请
    Method of forming a gate of a semiconductor device 有权
    形成半导体器件的栅极的方法

    公开(公告)号:US20060110900A1

    公开(公告)日:2006-05-25

    申请号:US11283121

    申请日:2005-11-18

    申请人: Sun-Pil Youn Chang-Won Lee Woong-Hee Sohn Gil-Heyun Choi Jong-Ryeol Yoo Jang-Hee Lee Jae-Hwa Park Dong-Chan Lim Byung-Hak Lee Hee-Sook Park

    发明人: Sun-Pil Youn Chang-Won Lee Woong-Hee Sohn Gil-Heyun Choi Jong-Ryeol Yoo Jang-Hee Lee Jae-Hwa Park Dong-Chan Lim Byung-Hak Lee Hee-Sook Park

    IPC分类号: H01L21/4763

    CPC分类号: H01L21/28247 H01L21/28044 H01L29/4925

    摘要: In a method for forming a gate in a semiconductor device, a first preliminary gate structure is formed on a substrate. The first preliminary gate structure includes a gate oxide layer, a polysilicon layer pattern and a tungsten layer pattern sequentially stacked on the substrate. A primary oxidation process is performed using oxygen radicals at a first temperature for adjusting a thickness of the gate oxide layer to form a second preliminary gate structure having tungsten oxide. The tungsten oxide is reduced to a tungsten material using a gas containing hydrogen to form a gate structure. The tungsten oxide may not be formed on the gate structure so that generation of the whiskers may be suppressed. Thus, a short between adjacent wirings may not be generated.

    摘要翻译: 在半导体器件中形成栅极的方法中,在衬底上形成第一预栅极结构。 第一预选栅极结构包括依次层叠在基板上的栅极氧化物层,多晶硅层图案和钨层图案。 在第一温度下使用氧自由基进行一次氧化处理,以调节栅极氧化物层的厚度以形成具有氧化钨的第二初步栅极结构。 使用含氢气体将钨氧化物还原成钨材料以形成栅极结构。 在栅极结构上可能不形成氧化钨,从而可以抑制晶须的产生。 因此,可能不会产生相邻布线之间的短路。

    Methods of fabricating semiconductor devices
    2.
    发明申请
    Methods of fabricating semiconductor devices 审中-公开
    制造半导体器件的方法

    公开(公告)号:US20060068535A1

    公开(公告)日:2006-03-30

    申请号:US11216662

    申请日:2005-08-31

    申请人: Sun-Pil Youn Chang-Won Lee Woong-Hee Sohn Gil-Heyun Choi Jong-Ryeol Yoo Dong-Chan Lim Byung-Hak Lee Hee-Sook Park

    发明人: Sun-Pil Youn Chang-Won Lee Woong-Hee Sohn Gil-Heyun Choi Jong-Ryeol Yoo Dong-Chan Lim Byung-Hak Lee Hee-Sook Park

    IPC分类号: H01L21/8234

    CPC分类号: H01L21/823462 H01L21/823481

    摘要: Methods of forming semiconductor devices are provided. A preliminary gate structure is formed on a semiconductor substrate. The preliminary gate structure includes a gate insulation layer pattern, a polysilicon layer pattern and a conductive layer pattern. A first oxidation process is performed on the preliminary gate structure using an oxygen radical. The first oxidation process is carried out at a first temperature. A second oxidation process is carried out on the oxidized preliminary gate structure to provide a gate structure on the substrate, the second oxidation process being carried out at a second temperature, the second temperature being higher than the first temperature.

    摘要翻译: 提供了形成半导体器件的方法。 在半导体衬底上形成初步栅极结构。 预栅极结构包括栅极绝缘层图案,多晶硅层图案和导电层图案。 使用氧自由基对预选栅极结构进行第一氧化处理。 第一氧化过程在第一温度下进行。 在氧化的预选栅极结构上进行第二氧化工艺以在衬底上提供栅极结构,第二氧化工艺在第二温度下进行,第二温度高于第一温度。

    Semiconductor devices including high-k dielectric materials and methods of forming the same
    3.
    发明申请
    Semiconductor devices including high-k dielectric materials and methods of forming the same 失效
    包括高k电介质材料的半导体器件及其形成方法

    公开(公告)号:US20060057794A1

    公开(公告)日:2006-03-16

    申请号:US11227541

    申请日:2005-09-15

    申请人: Sun-Pil Youn Chang-Won Lee Woong-Hee Sohn Gil-Heyun Choi Jong-Ryeol Yoo Dong-Chan Lim Jae-Hwa Park Byung-Hak Lee Hee-Sook Park

    发明人: Sun-Pil Youn Chang-Won Lee Woong-Hee Sohn Gil-Heyun Choi Jong-Ryeol Yoo Dong-Chan Lim Jae-Hwa Park Byung-Hak Lee Hee-Sook Park

    IPC分类号: H01L21/8234

    CPC分类号: H01L27/11526 H01L21/82345 H01L27/105 H01L27/1052 H01L27/11546

    摘要: A semiconductor device includes a first conductive layer on a semiconductor substrate, a dielectric layer including a high-k dielectric material on the first conductive layer, a second conductive layer including polysilicon doped with P-type impurities on the dielectric layer, and a third conductive layer including a metal on the second conductive layer. In some devices, a first gate structure is formed in a main cell region and includes a tunnel oxide layer, a floating gate, a first high-k dielectric layer, and a control gate. The control gate includes a layer of polysilicon doped with P-type impurities and a metal layer. A second gate structure is formed outside the main cell region and includes a tunnel oxide layer, a conductive layer, and a metal layer. A third gate structure is formed in a peripheral cell region and includes a tunnel oxide, a conductive layer, and a high-k dielectric layer having a width narrower than the conductive layer. Method embodiments are also disclosed.

    摘要翻译: 半导体器件包括在半导体衬底上的第一导电层,在第一导电层上包括高k电介质材料的电介质层,在电介质层上包含掺杂有P型杂质的多晶硅的第二导电层,以及第三导电层 层,其包括在第二导电层上的金属。 在一些器件中,第一栅极结构形成在主单元区域中,并且包括隧道氧化物层,浮置栅极,第一高k电介质层和控制栅极。 控制栅极包括掺杂有P型杂质和金属层的多晶硅层。 第二栅极结构形成在主单元区域的外部,并且包括隧道氧化物层,导电层和金属层。 第三栅极结构形成在周边单元区域中,并且包括具有比导电层窄的宽度的隧道氧化物,导电层和高k电介质层。 还公开了方法实施例。

    Methods of manufacturing semiconductor device gate structures by performing a surface treatment on a gate oxide layer
    4.
    发明申请
    Methods of manufacturing semiconductor device gate structures by performing a surface treatment on a gate oxide layer 审中-公开
    通过对栅极氧化物层进行表面处理来制造半导体器件栅极结构的方法

    公开(公告)号:US20060051921A1

    公开(公告)日:2006-03-09

    申请号:US11215504

    申请日:2005-08-30

    申请人: Sun-Pil Youn Gil-Heyun Choi Chang-Won Lee Byung-Hak Lee Hee-Sook Park Dong-Chan Lim Jae-Hwa Park Woong-Hee Sohn Jong-Ryeol Yoo

    发明人: Sun-Pil Youn Gil-Heyun Choi Chang-Won Lee Byung-Hak Lee Hee-Sook Park Dong-Chan Lim Jae-Hwa Park Woong-Hee Sohn Jong-Ryeol Yoo

    IPC分类号: H01L21/336 H01L21/31

    CPC分类号: H01L21/28176 H01L27/115 H01L27/11521

    摘要: In methods of manufacturing semiconductor devices, a preliminary gate oxide layer is formed on a substrate. A surface treatment process is performed on the preliminary gate oxide layer that reduces a diffusion of an oxidizing agent in the preliminary gate oxide layer to form a gate oxide layer on the substrate. A preliminary gate structure is formed on the gate oxide layer. The preliminary gate structure includes a first conductive layer pattern on the gate oxide layer and a second conductive layer pattern on the first conductive layer pattern. An oxidation process is performed on the preliminary gate structure using the oxidizing agent to form an oxide layer on a sidewall of the first conductive layer pattern and on the gate oxide layer, and to round at least one edge portion of the first conductive layer pattern.

    摘要翻译: 在半导体器件的制造方法中,在基板上形成预备栅氧化层。 在预栅极氧化物层上进行表面处理工艺,其减少预选栅极氧化物层中的氧化剂的扩散,以在衬底上形成栅极氧化物层。 在栅极氧化物层上形成初步栅极结构。 预栅极结构包括栅极氧化物层上的第一导电层图案和第一导电层图案上的第二导电层图案。 使用氧化剂对预选栅极结构进行氧化处理,以在第一导电层图案和栅极氧化物层的侧壁上形成氧化物层,并且使第一导电层图案的至少一个边缘部分圆弧化。

    Semiconductor devices including high-k dielectric materials
    6.
    发明授权
    Semiconductor devices including high-k dielectric materials 失效
    包括高k电介质材料的半导体器件

    公开(公告)号:US07696552B2

    公开(公告)日:2010-04-13

    申请号:US11227541

    申请日:2005-09-15

    申请人: Sun-Pil Youn Chang-Won Lee Woong-Hee Sohn Gil-Heyun Choi Jong-Ryeol Yoo Dong-Chan Lim Jae-Hwa Park Byung-Hak Lee Hee-Sook Park

    发明人: Sun-Pil Youn Chang-Won Lee Woong-Hee Sohn Gil-Heyun Choi Jong-Ryeol Yoo Dong-Chan Lim Jae-Hwa Park Byung-Hak Lee Hee-Sook Park

    IPC分类号: H01L27/108 H01L29/94

    CPC分类号: H01L27/11526 H01L21/82345 H01L27/105 H01L27/1052 H01L27/11546

    摘要: A semiconductor device includes a first conductive layer on a semiconductor substrate, a dielectric layer including a high-k dielectric material on the first conductive layer, a second conductive layer including polysilicon doped with P-type impurities on the dielectric layer, and a third conductive layer including a metal on the second conductive layer. In some devices, a first gate structure is formed in a main cell region and includes a tunnel oxide layer, a floating gate, a first high-k dielectric layer, and a control gate. The control gate includes a layer of polysilicon doped with P-type impurities and a metal layer. A second gate structure is formed outside the main cell region and includes a tunnel oxide layer, a conductive layer, and a metal layer. A third gate structure is formed in a peripheral cell region and includes a tunnel oxide, a conductive layer, and a high-k dielectric layer having a width narrower than the conductive layer. Method embodiments are also disclosed.

    摘要翻译: 半导体器件包括在半导体衬底上的第一导电层,在第一导电层上包括高k电介质材料的电介质层,在电介质层上掺杂有P型杂质的多晶硅的第二导电层,以及第三导电层 层,其包括在第二导电层上的金属。 在一些器件中,第一栅极结构形成在主单元区域中,并且包括隧道氧化物层,浮置栅极,第一高k电介质层和控制栅极。 控制栅极包括掺杂有P型杂质和金属层的多晶硅层。 第二栅极结构形成在主单元区域的外部,并且包括隧道氧化物层,导电层和金属层。 第三栅极结构形成在周边单元区域中,并且包括具有比导电层窄的宽度的隧道氧化物,导电层和高k电介质层。 还公开了方法实施例。

    Methods of manufacturing a semiconductor device
    7.
    发明申请
    Methods of manufacturing a semiconductor device 审中-公开
    制造半导体器件的方法

    公开(公告)号:US20060115967A1

    公开(公告)日:2006-06-01

    申请号:US11246791

    申请日:2005-10-07

    申请人: Hee-Sook Park Gil-Heyun Choi Chang-Won Lee Byung-Hak Lee Jong-Ryeol Yoo Dong-Chan Lim Jae-Hwa Park Sun-Pil Youn Woong-Hee Sohn

    发明人: Hee-Sook Park Gil-Heyun Choi Chang-Won Lee Byung-Hak Lee Jong-Ryeol Yoo Dong-Chan Lim Jae-Hwa Park Sun-Pil Youn Woong-Hee Sohn

    IPC分类号: H01L21/8238 H01L21/425

    CPC分类号: H01L21/823828

    摘要: In a method of manufacturing a semiconductor device including a polysilicon layer on which a heat treatment is performed in hydrogen atmosphere, a preliminary polysilicon layer is formed on a semiconductor substrate. Fluorine (F) impurities are implanted onto the preliminary polysilicon layer, so that the preliminary polysilicon layer is formed into a polysilicon layer. A main heat treatment is performed on the polysilicon layer, thereby preventing a void caused by the fluorine (F) in the polysilicon layer. A subsidiary heat treatment is further performed on the polysilicon layer prior to the main heat treatment, thereby activating dopants in the polysilicon layer. Electrical characteristics and performance of a semiconductor device are improved since the void is sufficiently prevented in the polysilicon layer.

    摘要翻译: 在制造包括在氢气氛中进行热处理的多晶硅层的半导体器件的方法中,在半导体衬底上形成初步多晶硅层。 将氟(F)杂质注入到初步多晶硅层上,使得初步多晶硅层形成为多晶硅层。 在多晶硅层上进行主要的热处理,从而防止由多晶硅层中的氟(F)引起的空隙。 在主要热处理之前在多晶硅层上进一步进行辅助热处理,由此激活多晶硅层中的掺杂剂。 改善了半导体器件的电特性和性能,因为在多晶硅层中充分防止了空隙。

    Method of forming a gate of a semiconductor device
    9.
    发明授权
    Method of forming a gate of a semiconductor device 有权
    形成半导体器件的栅极的方法

    公开(公告)号:US07371669B2

    公开(公告)日:2008-05-13

    申请号:US11283121

    申请日:2005-11-18

    申请人: Sun-Pil Youn Chang-Won Lee Woong-Hee Sohn Gil-Heyun Choi Jong-Ryeol Yoo Jang-Hee Lee Jae-Hwa Park Dong-Chan Lim Byung-Hak Lee Hee-Sook Park

    发明人: Sun-Pil Youn Chang-Won Lee Woong-Hee Sohn Gil-Heyun Choi Jong-Ryeol Yoo Jang-Hee Lee Jae-Hwa Park Dong-Chan Lim Byung-Hak Lee Hee-Sook Park

    IPC分类号: H01L21/3205

    CPC分类号: H01L21/28247 H01L21/28044 H01L29/4925

    摘要: In a method for forming a gate in a semiconductor device, a first preliminary gate structure is formed on a substrate. The first preliminary gate structure includes a gate oxide layer, a polysilicon layer pattern and a tungsten layer pattern sequentially stacked on the substrate. A primary oxidation process is performed using oxygen radicals at a first temperature for adjusting a thickness of the gate oxide layer to form a second preliminary gate structure having tungsten oxide. The tungsten oxide is reduced to a tungsten material using a gas containing hydrogen to form a gate structure. The tungsten oxide may not be formed on the gate structure so that generation of the whiskers may be suppressed. Thus, a short between adjacent wirings may not be generated.

    摘要翻译: 在半导体器件中形成栅极的方法中,在衬底上形成第一预栅极结构。 第一预选栅极结构包括依次层叠在基板上的栅极氧化物层,多晶硅层图案和钨层图案。 在第一温度下使用氧自由基进行一次氧化处理,以调节栅极氧化物层的厚度以形成具有氧化钨的第二初步栅极结构。 使用含氢气体将钨氧化物还原成钨材料以形成栅极结构。 在栅极结构上可能不形成氧化钨,从而可以抑制晶须的产生。 因此,可能不会产生相邻布线之间的短路。

    Methods of forming gate structures for semiconductor devices and related structures
    10.
    发明申请
    Methods of forming gate structures for semiconductor devices and related structures 有权
    形成半导体器件和相关结构的栅极结构的方法

    公开(公告)号:US20060081916A1

    公开(公告)日:2006-04-20

    申请号:US11221062

    申请日:2005-09-07

    申请人: Woong-Hee Sohn Chang-Won Lee Sun-Pil Youn Gil-Heyun Choi Byung-Hak Lee Jong-Ryeol Yoo Hee-Sook Park

    发明人: Woong-Hee Sohn Chang-Won Lee Sun-Pil Youn Gil-Heyun Choi Byung-Hak Lee Jong-Ryeol Yoo Hee-Sook Park

    IPC分类号: H01L29/788

    CPC分类号: H01L21/28273 H01L29/42324

    摘要: Methods of forming a semiconductor device may include forming a tunnel oxide layer on a semiconductor substrate, forming a gate structure on the tunnel oxide layer, forming a leakage barrier oxide, and forming an insulating spacer. More particularly, the tunnel oxide layer may be between the gate structure and the substrate, and the gate structure may include a first gate electrode on the tunnel oxide layer, an inter-gate dielectric on the first gate electrode, and a second gate electrode on the inter-gate dielectric with the inter-gate dielectric between the first and second gate electrodes. The leakage barrier oxide may be formed on sidewalls of the second gate electrode. The insulating spacer may be formed on the leakage barrier oxide with the leakage barrier oxide between the insulating spacer and the sidewalls of the second gate electrode. In addition, the insulating spacer and the leakage barrier oxide may include different materials. Related structures are also discussed.

    摘要翻译: 形成半导体器件的方法可以包括在半导体衬底上形成隧道氧化物层,在隧道氧化物层上形成栅极结构,形成漏电阻氧化物,并形成绝缘衬垫。 更具体地,隧道氧化物层可以在栅极结构和衬底之间,并且栅极结构可以包括隧道氧化物层上的第一栅极电极,第一栅电极上的栅极间电介质和第二栅电极 所述栅极间电介质与所述第一和第二栅电极之间的栅极间电介质。 漏电阻氧化物可以形成在第二栅电极的侧壁上。 绝缘间隔物可以在绝缘隔离物和第二栅电极的侧壁之间的泄漏阻挡氧化物形成在漏电阻氧化物上。 此外,绝缘间隔物和漏电阻氧化物可以包括不同的材料。 还讨论了相关结构。