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    • 1. 发明申请
    • Low-Leakage, High-Capacitance Capacitor Structures and Method of Making
    • 低泄漏,高电容电容器结构及制作方法
    • US20120241909A1
    • 2012-09-27
    • US13070049
    • 2011-03-23
    • Tushar P. MerchantMichael A. Sadd
    • Tushar P. MerchantMichael A. Sadd
    • H01L29/92H01L21/02
    • H01L28/92H01L29/94
    • A process and device structure is provided for increasing capacitance density of a capacitor structure. A sandwich capacitor is provided in which a bottom silicon-containing conductor plate is formed with holes or cavities, upon which an oxide layer and a top silicon-containing layer conductor is formed. The holes or cavities provide additional capacitive area, thereby increasing capacitance per footprint area of the capacitor structure. The holes can form, for example, a line structure or a waffle-like structure in the bottom conductor plate. Etching techniques used to form the holes in the bottom conductor plate can also result in side wall tapering of the holes, thereby increasing the surface area of the silicon-containing layer defined by the holes. In addition, depth of holes can be adjusted through timed etching to further adjust capacitive area.
    • 提供了一种用于增加电容器结构的电容密度的工艺和器件结构。 提供一种夹层电容器,其中底部含硅导电板形成有孔或空腔,在其上形成氧化物层和顶部含硅层导体。 孔或腔提供附加的电容区域,从而增加电容器结构的每个覆盖区域的电容。 孔可以形成例如底部导体板中的线结构或华夫饼状结构。 用于在底部导体板中形成孔的蚀刻技术还可导致孔的侧壁渐缩,从而增加由孔限定的含硅层的表面积。 此外,可以通过定时蚀刻来调整孔的深度,以进一步调整电容面积。
    • 5. 发明授权
    • Low-leakage, high-capacitance capacitor structures and method of making
    • 低泄漏,大电容电容器结构及制造方法
    • US09112060B2
    • 2015-08-18
    • US13070049
    • 2011-03-23
    • Tushar P. MerchantMichael A. Sadd
    • Tushar P. MerchantMichael A. Sadd
    • H01L21/02H01L49/02H01L29/94
    • H01L28/92H01L29/94
    • A process and device structure is provided for increasing capacitance density of a capacitor structure. A sandwich capacitor is provided in which a bottom silicon-containing conductor plate is formed with holes or cavities, upon which an oxide layer and a top silicon-containing layer conductor is formed. The holes or cavities provide additional capacitive area, thereby increasing capacitance per footprint area of the capacitor structure. The holes can form, for example, a line structure or a waffle-like structure in the bottom conductor plate. Etching techniques used to form the holes in the bottom conductor plate can also result in side wall tapering of the holes, thereby increasing the surface area of the silicon-containing layer defined by the holes. In addition, depth of holes can be adjusted through timed etching to further adjust capacitive area.
    • 提供了一种用于增加电容器结构的电容密度的工艺和器件结构。 提供一种夹层电容器,其中底部含硅导电板形成有孔或空腔,在其上形成氧化物层和顶部含硅层导体。 孔或腔提供附加的电容区域,从而增加电容器结构的每个覆盖区域的电容。 孔可以形成例如底部导体板中的线结构或华夫饼状结构。 用于在底部导体板中形成孔的蚀刻技术还可导致孔的侧壁渐缩,从而增加由孔限定的含硅层的表面积。 此外,可以通过定时蚀刻来调整孔的深度,以进一步调整电容面积。
    • 7. 发明授权
    • Method of making a semiconductor device including a bridgeable material
    • 制造包括可桥接材料的半导体器件的方法
    • US08168468B2
    • 2012-05-01
    • US12039909
    • 2008-02-29
    • Varughese MathewSam S. GarciaTushar P. Merchant
    • Varughese MathewSam S. GarciaTushar P. Merchant
    • H01L21/00
    • H01L45/085H01L45/1233H01L45/1253H01L45/1266H01L45/142H01L45/143H01L45/1658H01L45/1683
    • A method for making a semiconductor device (10) includes providing an interconnect layer (14) over an underlying layer (12), forming a first insulating layer (16) over the interconnect layer, and forming an opening (18) through the insulating layer to the interconnect layer. A first conductive layer (24) is formed over the interconnect layer and in the opening. This is performed by plating so it is selective. A second conductive layer (28) in the opening is formed by displacement by immersion. This is performed after the first conductive layer has been formed. The result is the second conductive layer is formed by a selective deposition and is effective for providing it with bridging material. A layer of bridgeable material (34) is formed over the second conductive layer and in the opening. A third conductive layer (42) is formed over the bridgeable material. The semiconductor device may be useable as a conductive bridge memory device.
    • 制造半导体器件(10)的方法包括在下层(12)之上提供互连层(14),在所述互连层上形成第一绝缘层(16),以及通过绝缘层形成开口(18) 到互连层。 在互连层上和开口中形成第一导电层(24)。 这是通过电镀进行的,所以它是选择性的。 开口中的第二导电层(28)通过浸渍移位而形成。 这是在形成第一导电层之后进行的。 结果是通过选择性沉积形成第二导电层并且有效地为其提供桥接材料。 在第二导电层上和开口中形成有可桥接材料层(34)。 第三导电层(42)形成在可桥接材料上。 半导体器件可以用作导电桥接器件。
    • 9. 发明授权
    • Split gate memory cell using sidewall spacers
    • 使用侧壁间隔件的分离栅极存储单元
    • US07704830B2
    • 2010-04-27
    • US11759518
    • 2007-06-07
    • Rajesh A. RaoTushar P. MerchantRamachandran MuralidharLakshmanna Vishnubhotla
    • Rajesh A. RaoTushar P. MerchantRamachandran MuralidharLakshmanna Vishnubhotla
    • H01L21/336
    • H01L29/42332B82Y10/00H01L21/28273H01L29/42328H01L29/7881
    • A self-aligned split gate bitcell includes first and second regions of charge storage material separated by a gap devoid of charge storage material. Spacers are formed along sidewalls of sacrificial layer extending above and on opposite sides of the bitcell stack, wherein the spacers are separated from one another by at least a gap length. Etching the bitcell stack, selective to the spacers, forms a gap that splits the bitcell stack into first and second gates which together form the split gate bitcell stack. A storage portion of bitcell stack is also etched, wherein etching extends the gap and separates the corresponding layer into first and second separate regions, the extended gap being devoid of charge storage material. Dielectric material is deposited over the gap and etched back to expose a top surface of the sacrificial layer, which is thereafter removed to expose sidewalls of the split gate bitcell stack.
    • 自对准分离栅极位单元包括由没有电荷存储材料的间隙分开的电荷存储材料的第一和第二区域。 间隔物形成在牺牲层的侧壁上,该牺牲层在位单元堆叠的上方和相对侧上延伸,其中间隔物彼此间隔至少间隙长度。 刻蚀对间隔物有选择性的位单元堆叠形成了将位单元堆叠分成第一和第二栅极的间隙,这些栅极组共同构成了分离栅极位单元堆叠。 比特单元堆叠的存储部分也被蚀刻,其中蚀刻延伸间隙并将相应的层分离成第一和第二分离区域,扩展间隙没有电荷存储材料。 电介质材料沉积在间隙上并被回蚀以暴露牺牲层的顶表面,此牺牲层此后被去除以暴露分裂栅极位晶胞堆叠的侧壁。