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    • 7. 发明授权
    • Methods of fabricating semiconductor devices with scalable two transistor memory cells
    • 用可扩展的双晶体管存储单元制造半导体器件的方法
    • US07112492B2
    • 2006-09-26
    • US11040229
    • 2005-01-21
    • Su-Jin AhnGwan-Hyeob KohHyoung-Joon Kim
    • Su-Jin AhnGwan-Hyeob KohHyoung-Joon Kim
    • H01L21/336
    • H01L27/105H01L27/115H01L27/11521H01L27/11526H01L27/11543H01L29/42324H01L29/7881
    • Semiconductor devices having scalable two transistor memory cells, and methods of fabricating the same, are disclosed. The semiconductor devices include a semiconductor substrate having first, second and third isolation layers thereon. The first and second isolation layers are spaced apart to define a first active region therebetween, and the second and third isolation layers are likewise spaced apart to form a second active region therebetween. A cell gate is provided on each active region that includes a gate dielectric layer, a storage node, a multiple tunnel junction barrier and a source layer that are sequentially stacked. The device also includes first and second control lines that surround at least a portion of each sidewall of the cell gates. A dielectric layer may be interposed between the sidewalls of the cell gates and the control line that surrounds it. A data line connects to the cell gates.
    • 公开了具有可伸缩的双晶体管存储单元的半导体器件及其制造方法。 半导体器件包括其上具有第一,第二和第三隔离层的半导体衬底。 第一和第二隔离层间隔开以限定它们之间的第一有源区,并且第二隔离层和第三隔离层同样隔开以在它们之间形成第二有源区。 在每个有源区域上提供一个单元栅极,该栅极电介质层,存储节点,多个隧道结屏障和源层依次堆叠。 该装置还包括围绕电池栅极的每个侧壁的至少一部分的第一和第二控制线。 电介质层可以插在电池栅极的侧壁和围绕它的控制线之间。 数据线连接到单元门。
    • 9. 发明授权
    • Method for fabricating MOS transistor
    • 制造MOS晶体管的方法
    • US06335233B1
    • 2002-01-01
    • US09347822
    • 1999-07-02
    • Chang-Hyun ChoGwan-Hyeob KohMi-Hyang LeeDae-Won Ha
    • Chang-Hyun ChoGwan-Hyeob KohMi-Hyang LeeDae-Won Ha
    • H01L218238
    • H01L29/6659H01L21/26506H01L21/823807H01L21/823892H01L29/0847H01L29/1079H01L29/7833
    • A first conductive impurity ion is implanted into a semiconductor substrate to form a well area on which a gate electrode is formed. A first non-conductive impurity is implanted into the well area on both sides of the gate electrode to control a substrate defect therein and to form a first precipitate area to a first depth. A second conductive impurity ion is implanted into the well area on both sides of the gate electrode, so that a source/drain area is formed to a second depth being relatively shallower than the first depth. A second non-conductive impurity is implanted into the source/drain area so as to control a substrate defect therein and to form a second precipitate area. As a result, substrate defects such as dislocation, extended defect, and stacking fault are isolated from a P-N junction area, thereby forming a stable P-N junction.
    • 将第一导电杂质离子注入到半导体衬底中以形成其上形成栅电极的阱区。 将第一非导电杂质注入到栅极两侧的阱区中以控制其中的衬底缺陷并形成第一深度的第一沉淀区。 将第二导电杂质离子注入到栅极两侧的阱区中,使得源/漏区形成为比第一深度相对浅的第二深度。 将第二非导电杂质注入源/漏区,以便控制其中的衬底缺陷并形成第二沉淀区。 结果,从P-N结区域隔离诸如位错,延伸缺陷和堆垛层错的基板缺陷,从而形成稳定的P-N结。