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    • 4. 发明申请
    • Method for fabricating ferroelectric random access memory device with merged-top electrode-plateline capacitor
    • 具有合并顶电极 - 平板电容器的铁电随机存取存储器件的制造方法
    • US20040266032A1
    • 2004-12-30
    • US10741670
    • 2003-12-18
    • Sang-Hyun OhKyu-Hyun BangIn-Woo JangJin-Yong SeongJin-Gu KimSong-Hee ParkYoung-Ho YangKye-Nam LeeSuk-Kyoung Hong
    • H01L021/00H01L021/8242
    • H01L27/11502H01L27/11507H01L28/57
    • The present invention relates to a method for fabricating a ferroelectric random access memory (FeRAM) device. The method includes the steps of: forming a first inter-layer insulation layer on a substrate; forming a storage node contact connected with a partial portion of the substrate by passing through the first inter-layer insulation layer; forming a lower electrode connected to the storage node contact on the first inter-layer insulation layer; forming a second inter-layer insulation layer having a surface level lower than that of the lower electrode so that the second inter-layer insulation layer encompasses a bottom part of the lower electrode; forming an impurity diffusion barrier layer encompassing an upper part of the lower electrode on the second inter-layer insulation layer; forming a ferroelectric layer on the lower electrode and the impurity diffusion barrier layer; and forming a top electrode on the ferroelectric layer.
    • 本发明涉及一种制造铁电随机存取存储器(FeRAM)器件的方法。 该方法包括以下步骤:在衬底上形成第一层间绝缘层; 通过穿过所述第一层间绝缘层形成与所述基板的部分部分连接的存储节点接触件; 在所述第一层间绝缘层上形成连接到所述存储节点接点的下电极; 形成具有低于下电极的表面电平的第二层间绝缘层,使得第二层间绝缘层包围下电极的底部; 在所述第二层间绝缘层上形成包围所述下电极的上部的杂质扩散阻挡层; 在下电极和杂质扩散阻挡层上形成铁电层; 以及在所述铁电层上形成顶部电极。
    • 6. 发明申请
    • Method of forming a memory cell with a single sided buried strap
    • 用单面埋置带形成存储单元的方法
    • US20040248364A1
    • 2004-12-09
    • US10722647
    • 2003-11-26
    • Nanya Technology Corporation
    • Chih-Yuan HsiaoYi-Nan Chen
    • H01L021/8242H01L021/20
    • H01L27/10867H01L27/10864
    • A method of forming a memory cell with a single sided buried strap. A collar oxide layer is formed on the sidewall of a trench. A conductive layer fills the trench. The conductive layer and the collar oxide layer are partially removed to form an opening having first and second sidewalls. The remaining collar oxide layer is lower than the remaining conductive layer. An angle implantation with F ions is performed on the first sidewall. A thermal oxidation process is performed to form a first oxide layer on the first sidewall and a second oxide layer on the second sidewall. The first oxide layer is thicker than the second oxide layer. The second oxide layer is removed to expose the second sidewall. A buried strap is formed at the bottom of the opening, insulated from the first sidewall by the first oxide layer.
    • 一种用单面埋置带形成存储单元的方法。 环状氧化物层形成在沟槽的侧壁上。 导电层填充沟槽。 导电层和套环氧化物层被部分去除以形成具有第一和第二侧壁的开口。 剩余的环状氧化物层比剩余的导电层低。 在第一侧壁上进行具有F离子的角度注入。 进行热氧化处理以在第一侧壁上形成第一氧化物层,在第二侧壁上形成第二氧化物层。 第一氧化物层比第二氧化物层厚。 去除第二氧化物层以暴露第二侧壁。 在开口的底部形成掩埋带,通过第一氧化物层与第一侧壁绝缘。
    • 8. 发明申请
    • Method of manufacturing semiconductor device having capacitor
    • 制造具有电容器的半导体器件的方法
    • US20040235241A1
    • 2004-11-25
    • US10793867
    • 2004-03-08
    • Renesas Technology Corp.
    • Masatoshi AnmaMasahiko Takeuchi
    • H01L021/8242
    • H01L28/91H01L21/31683H01L27/10852H01L28/65
    • It is an object to obtain a method of manufacturing a semiconductor device having a capacitor capable of avoiding generation of a leakage current and an electrical short circuit between electrodes which are caused by a sharp portion of a lower electrode of the capacitor and a deterioration in a crystallinity of a dielectric film of the capacitor which is caused by a residue. A surface of a ruthenium film (7) is oxidized by a low temperature plasma oxidation process to form a ruthenium oxide film (9). Also in the case in which a part of a residue (51) exists on the surface of the ruthenium film (7), the existing residue (51) is lifted off and disappears by formation of the ruthenium oxide film (9) containing RuO4 having a high vapor pressure in a large amount. The low temperature plasma oxidation process, moreover, has an anisotropy an oxidation rate in a vertical direction is higher than that in a transverse direction. Accordingly, an upper end of a side wall portion of the ruthenium film (7) is greatly oxidized in the vertical direction and is thus rounded. As a result, a sharp portion (50) disappears.
    • 本发明的目的是获得一种具有电容器的半导体器件的制造方法,所述电容器能够避免由电容器的下部电极的尖锐部分引起的漏电流和电极之间的电短路以及电容器的劣化 由残留物引起的电容器的电介质膜的结晶度。 钌膜(7)的表面通过低温等离子体氧化法氧化,形成氧化钌膜(9)。 此外,在钌膜(7)的表面存在一部分残留物(51)的情况下,通过形成含有RuO 4的氧化钌膜(9),使现有的残渣(51)脱落而消失,所述RuO 4具有 大量蒸气压高。 此外,低温等离子体氧化法具有各向异性,垂直方向的氧化速度高于横向的氧化速度。 因此,钌膜(7)的侧壁部的上端在垂直方向上被大大氧化,因此是圆形的。 结果,尖锐部分(50)消失。