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    • 5. 发明授权
    • Double patterning process for integrated circuit device manufacturing
    • 集成电路器件制造的双重图案化工艺
    • US08232210B2
    • 2012-07-31
    • US12562222
    • 2009-09-18
    • Kangguo ChengHaining S. Yang
    • Kangguo ChengHaining S. Yang
    • H01L21/311
    • H01L21/31144H01L21/0337H01L21/265H01L21/28008H01L21/32139H01L21/76816
    • A method of forming an integrated circuit (IC) device feature includes forming an initially substantially planar hardmask layer over a semiconductor device layer to be patterned; forming a first photoresist layer over the hardmask layer; patterning a first set of semiconductor device features in the first photoresist layer; registering the first set of semiconductor device features in the hardmask layer in a manner that maintains the hardmask layer substantially planar; removing the first photoresist layer; forming a second photoresist layer over the substantially planar hardmask layer; patterning a second set of semiconductor device features in the second photoresist layer; registering the second set of semiconductor device features in the hardmask layer in a manner that maintains the hardmask layer substantially planar; removing the second photoresist layer; and creating topography within the hardmask layer by removing portions thereof corresponding to both the first and second sets of semiconductor device features.
    • 形成集成电路(IC)器件特征的方法包括:在待图案化的半导体器件层上形成初始基本平坦的硬掩模层; 在所述硬掩模层上形成第一光致抗蚀剂层; 图案化第一光致抗蚀剂层中的第一组半导体器件特征; 在硬掩模层中以保持硬掩模层基本上平面的方式对准第一组半导体器件特征; 去除第一光致抗蚀剂层; 在所述基本上平坦的硬掩模层上形成第二光致抗蚀剂层; 在第二光致抗蚀剂层中图形化第二组半导体器件特征; 在硬掩模层中以保持硬掩模层基本上平面的方式对准第二组半导体器件特征; 去除所述第二光致抗蚀剂层; 以及通过移除与所述第一和第二组半导体器件特征对应的部分来在所述硬掩模层内产生形貌。
    • 6. 发明申请
    • STRUCTURE AND METHOD OF FORMING A TRANSISTOR WITH ASYMMETRIC CHANNEL AND SOURCE/DRAIN REGIONS
    • 用不对称通道和源/漏区形成晶体管的结构和方法
    • US20100176450A1
    • 2010-07-15
    • US12351263
    • 2009-01-09
    • Haining S. YangKangguo ChengRobert Wong
    • Haining S. YangKangguo ChengRobert Wong
    • H01L29/78H01L21/336
    • H01L29/78618H01L29/78684H01L29/78696
    • A semiconductor structure is described. The structure includes a semiconductor substrate having a conductive gate abutting a gate insulator for controlling conduction of a channel region; and a source region and a drain region associated with the conductive gate, where the source region includes a first material and the drain region includes a second material, and where the conductive gate is self-aligned to the first material and the second material. In one embodiment, the first material includes Si and the second material includes SiGe. A method of forming a semiconductor structure is also described. The method includes forming a pad layer on a top surface of a SOI layer of a semiconductor substrate; patterning the pad layer and a portion of the SOI layer for forming a SiGe layer; epitaxially growing the SOI layer for forming a Si layer and a SiGe layer adjacent to a sidewall of the SOI layer; selectively pulling a portion of the pad layer; forming a gate dielectric of a portion of the SiGe layer and the SOI layer; forming a gate conductor over the gate dielectric; removing the remaining of the pad layer; forming a source region in at least one of the SOI layer and the SiGe layer; and forming a drain region in at least one of the SOI layer and the SiGe layer.
    • 描述半导体结构。 该结构包括具有邻接栅极绝缘体的导电栅极以控制沟道区域的导通的半导体衬底; 以及与导电栅极相关联的源极区域和漏极区域,其中源极区域包括第一材料,并且漏极区域包括第二材料,并且其中导电栅极与第一材料和第二材料自对准。 在一个实施例中,第一材料包括Si,第二材料包括SiGe。 还描述了形成半导体结构的方法。 该方法包括在半导体衬底的SOI层的顶表面上形成焊盘层; 图案化衬垫层和用于形成SiGe层的SOI层的一部分; 外延生长用于形成Si层的SOI层和与SOI层的侧壁相邻的SiGe层; 选择性地拉动衬垫层的一部分; 形成SiGe层和SOI层的一部分的栅极电介质; 在所述栅极电介质上形成栅极导体; 去除衬垫层的剩余部分; 在所述SOI层和所述SiGe层中的至少一个中形成源区; 以及在所述SOI层和所述SiGe层中的至少一个中形成漏区。
    • 8. 发明授权
    • Replacement gate CMOS
    • 替换门CMOS
    • US08629506B2
    • 2014-01-14
    • US12407011
    • 2009-03-19
    • Kangguo ChengHaining S. Yang
    • Kangguo ChengHaining S. Yang
    • H01L21/70
    • H01L21/823878H01L21/823828H01L21/823842H01L21/823871H01L21/84H01L27/1203
    • A CMOS structure and a method for fabricating the CMOS structure include within a semiconductor substrate a first gate located over a first active region of a first polarity and a second gate located over a second active region of a second polarity different than the first polarity. The first active region and the second active region are separated by an isolation region. The first gate and the second gate are co-linear, with facing endwalls that terminate over the isolation region. The facing endwalls do not have a spacer located or formed adjacent or adjoining thereto, although sidewalls of the first gate and the second gate do. The CMOS structure may be fabricated using a sequential replacement gate method.
    • CMOS结构和用于制造CMOS结构的方法包括位于半导体衬底内的位于第一极性的第一有源区上的第一栅极和位于不同于第一极性的第二极性的第二有源区上的第二栅极。 第一有源区和第二有源区被隔离区隔开。 第一栅极和第二栅极是共线的,面向端壁终止在隔离区上。 面对的端壁不具有相邻或邻接的间隔件,尽管第一栅极和第二栅极的侧壁都是。 可以使用顺序替换栅极方法来制造CMOS结构。
    • 10. 发明授权
    • Structure and method of forming a transistor with asymmetric channel and source/drain regions
    • 形成具有不对称沟道和源极/漏极区的晶体管的结构和方法
    • US08232150B2
    • 2012-07-31
    • US12351263
    • 2009-01-09
    • Haining S. YangKangguo ChengRobert Wong
    • Haining S. YangKangguo ChengRobert Wong
    • H01L21/00H01L21/84
    • H01L29/78618H01L29/78684H01L29/78696
    • A semiconductor structure is described. The structure includes a semiconductor substrate having a conductive gate abutting a gate insulator for controlling conduction of a channel region; and a source region and a drain region associated with the conductive gate, where the source region includes a first material and the drain region includes a second material, and where the conductive gate is self-aligned to the first material and the second material. In one embodiment, the first material includes Si and the second material includes SiGe. A method of forming a semiconductor structure is also described. The method includes forming a pad layer on a top surface of a SOI layer of a semiconductor substrate; patterning the pad layer and a portion of the SOI layer for forming a SiGe layer; epitaxially growing the SOI layer for forming a Si layer and a SiGe layer adjacent to a sidewall of the SOI layer; selectively pulling a portion of the pad layer; forming a gate dielectric of a portion of the SiGe layer and the SOI layer; forming a gate conductor over the gate dielectric; removing the remaining of the pad layer; forming a source region in at least one of the SOI layer and the SiGe layer; and forming a drain region in at least one of the SOI layer and the SiGe layer.
    • 描述半导体结构。 该结构包括具有邻接栅极绝缘体的导电栅极以控制沟道区域的导通的半导体衬底; 以及与导电栅极相关联的源极区域和漏极区域,其中源极区域包括第一材料,并且漏极区域包括第二材料,并且其中导电栅极与第一材料和第二材料自对准。 在一个实施例中,第一材料包括Si,第二材料包括SiGe。 还描述了形成半导体结构的方法。 该方法包括在半导体衬底的SOI层的顶表面上形成焊盘层; 图案化衬垫层和用于形成SiGe层的SOI层的一部分; 外延生长用于形成Si层的SOI层和与SOI层的侧壁相邻的SiGe层; 选择性地拉动衬垫层的一部分; 形成SiGe层和SOI层的一部分的栅极电介质; 在所述栅极电介质上形成栅极导体; 去除衬垫层的剩余部分; 在所述SOI层和所述SiGe层中的至少一个中形成源区; 以及在所述SOI层和所述SiGe层中的至少一个中形成漏区。