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    • 1. 发明授权
    • Process to improve programming of memory cells
    • 改善存储单元编程的过程
    • US07153755B2
    • 2006-12-26
    • US11044813
    • 2005-01-26
    • Shih-Chang LiuWen-Ting ChuChien-Ming KuChi-Hsin LoChia-Shiung TsaiChia-Ta Hsieh
    • Shih-Chang LiuWen-Ting ChuChien-Ming KuChi-Hsin LoChia-Shiung TsaiChia-Ta Hsieh
    • H01L21/762
    • H01L27/11521H01L21/76224H01L27/10894H01L27/11
    • A method is provided for fabrication of a semiconductor substrate having regions isolated from each other by shallow trench isolation (STI) structures protruding above a surface of the substrate by a step height. The method includes the steps of forming a bottom antireflective coating (BARC) layer overlying the surface of a semiconductor substrate and the surface of STI structures; etching back a portion of the BARC layer overlying at least one of the STI structures, and partially etching back the at least one of the STI structures, to reduce the step height by which the STI structure protrudes above the surface of the substrate; and removing a remaining portion of the BARC layer between adjacent STI structures. The method may be used to fabricate semiconductor devices including memory cells that have improved reliability.
    • 提供了一种用于制造半导体衬底的方法,该半导体衬底具有通过在衬底的表面上突出台阶高度的浅沟槽隔离(STI)结构彼此隔离的区域。 该方法包括以下步骤:形成覆盖半导体衬底的表面和STI结构表面的底部抗反射涂层(BARC)层; 蚀刻覆盖所述STI结构中的至少一个的所述BARC层的一部分,并且部分地蚀刻所述STI结构中的所述至少一个,以降低所述STI结构在所述衬底的表面上方突出的台阶高度; 以及去除相邻STI结构之间的BARC层的剩余部分。 该方法可用于制造包括具有改进的可靠性的存储器单元的半导体器件。
    • 3. 发明授权
    • Process for erase improvement in a non-volatile memory device
    • 在非易失性存储器件中擦除改进的过程
    • US07297598B2
    • 2007-11-20
    • US11045850
    • 2005-01-28
    • Shih-Chang LiuChi-Hsin LoShih-Chi FuChia-Ta HsiehWen-Ting ChuChia-Shiung Tsai
    • Shih-Chang LiuChi-Hsin LoShih-Chi FuChia-Ta HsiehWen-Ting ChuChia-Shiung Tsai
    • H01L21/8247
    • H01L27/11521H01L21/28273H01L27/115
    • A method of making embedded non-volatile memory devices includes forming a first mask layer overlying a polycrystalline silicon layer in a cell region and a peripheral region on a semiconductor substrate wherein the first mask layer has a plurality of openings in the cell region. Portions of the polycrystalline silicon layer exposed in the plurality of openings can be oxidized to form a plurality of poly-oxide regions, and the first mask layer can then be removed. The polycrystalline silicon layer not covered by the plurality of poly-oxide regions can be etched to form a plurality of floating gates, wherein etching the polycrystalline silicon layer is accompanied by a sputtering. A dielectric layer can then be formed, as well as a second mask layer in both the cell region and the peripheral region. The second mask layer in the cell region is partially etched back after a photoresist layer is formed over the second mask layer in the peripheral region. The dielectric layer is partially etched to form multiple thicknesses of the dielectric layer. The second mask layer is removed and a plurality of control gates are formed partially overlying the plurality of floating gates in the cell region.
    • 一种制造嵌入式非易失性存储器件的方法包括形成覆盖单元区域中的多晶硅层的第一掩模层和半导体衬底上的外围区域,其中第一掩模层在单元区域中具有多个开口。 在多个开口中暴露的多晶硅层的一部分可以被氧化以形成多个多晶氧化物区域,然后可以去除第一掩模层。 可以蚀刻不被多个多晶氧化物区域覆盖的多晶硅层以形成多个浮栅,其中蚀刻多晶硅层伴随着溅射。 然后可以形成电介质层,以及在电池区域和周边区域中形成第二掩模层。 在周边区域中的第二掩模层上形成光致抗蚀剂层之后,单元区域中的第二掩模层被部分地回蚀。 电介质层被部分蚀刻以形成介电层的多个厚度。 去除第二掩模层,并且多个控制栅极部分地覆盖在单元区域中的多个浮动栅极上。
    • 4. 发明申请
    • Novel process for erase improvement in a non-volatile memory device
    • 用于擦除非易失性存储器件中的擦除的新方法
    • US20060170029A1
    • 2006-08-03
    • US11045850
    • 2005-01-28
    • Shih-Chang LiuChi-Hsin LoShih-Chi FuChia-Ta HsiehWen-Ting ChuChia-Shiung Tsai
    • Shih-Chang LiuChi-Hsin LoShih-Chi FuChia-Ta HsiehWen-Ting ChuChia-Shiung Tsai
    • H01L29/788
    • H01L27/11521H01L21/28273H01L27/115
    • A method of making embedded non-volatile memory devices includes forming a first mask layer overlying a polycrystalline silicon layer in a cell region and a peripheral region on a semiconductor substrate wherein the first mask layer has a plurality of openings in the cell region. Portions of the polycrystalline silicon layer exposed in the plurality of openings can be oxidized to form a plurality of poly-oxide regions, and the first mask layer can then be removed. The polycrystalline silicon layer not covered by the plurality of poly-oxide regions can be etched to form a plurality of floating gates, wherein etching the polycrystalline silicon layer is accompanied by a sputtering. A dielectric layer can then be formed, as well as a second mask layer in both the cell region and the peripheral region. The second mask layer in the cell region is partially etched back after a photoresist layer is formed over the second mask layer in the peripheral region. The dielectric layer is partially etched to form multiple thicknesses of the dielectric layer. The second mask layer is removed and a plurality of control gates are formed partially overlying the plurality of floating gates in the cell region.
    • 一种制造嵌入式非易失性存储器件的方法包括形成覆盖单元区域中的多晶硅层的第一掩模层和半导体衬底上的外围区域,其中第一掩模层在单元区域中具有多个开口。 在多个开口中暴露的多晶硅层的一部分可以被氧化以形成多个多晶氧化物区域,然后可以去除第一掩模层。 可以蚀刻不被多个多晶氧化物区域覆盖的多晶硅层以形成多个浮栅,其中蚀刻多晶硅层伴随着溅射。 然后可以形成电介质层,以及在电池区域和周边区域中形成第二掩模层。 在周边区域中的第二掩模层上形成光致抗蚀剂层之后,单元区域中的第二掩模层被部分地回蚀。 电介质层被部分蚀刻以形成介电层的多个厚度。 去除第二掩模层,并且多个控制栅极部分地覆盖在单元区域中的多个浮动栅极上。