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    • 1. 发明授权
    • Low-leakage DRAM structures using selective silicon epitaxial growth (SEG) on an insulating layer
    • 在绝缘层上使用选择性硅外延生长(SEG)的低泄漏DRAM结构
    • US06384437B1
    • 2002-05-07
    • US09963411
    • 2001-09-27
    • Kheng Chok TeeRandall Cher Liang ChaLap Chan
    • Kheng Chok TeeRandall Cher Liang ChaLap Chan
    • H01L27148
    • H01L27/10873H01L27/10808
    • Low current leakage DRAM structures are achieved using a selective silicon epitaxial growth over an insulating layer on memory cell (device) areas. An insulating layer, that also serves as a stress-release layer, and a Si3N4 hard mask are patterned to leave portions over the memory cell areas. Shallow trenches are etched in the substrate and filled with a CVD oxide which is polished back to the hard mask to form shallow trench isolation (STI) around the memory cell areas. The hard mask is selectively removed to form recesses in the STI aligned over the memory cell areas exposing the underlying insulating layer. Openings are etched in the insulating layer to provide a silicon-seed surface from which is grown a selective epitaxial layer extending over the insulating layer within the recesses. After growing a gate oxide on the epitaxial layer, FETs and DRAM capacitors can be formed on the epitaxial layer. The insulating layer under the epitaxial layer drastically reduces the capacitor leakage current and improves DRAM device performance. This self-aligning method also increases memory cell density, and is integratable into current DRAM processes to reduce cost.
    • 使用在存储器单元(器件)区域上的绝缘层上的选择性硅外延生长来实现低电流泄漏DRAM结构。 也用作应力释放层的绝缘层和Si 3 N 4硬掩模被图案化以在存储器单元区域上留下部分。 在衬底中蚀刻浅沟槽,并填充有CVD氧化物,其被抛光回硬掩模以在存储器单元区域周围形成浅沟槽隔离(STI)。 选择性地去除硬掩模,以在STI暴露下面的绝缘层的存储单元区域上对准STI中形成凹槽。 在绝缘层中蚀刻开口以提供硅种子表面,从该晶种表面生长在凹陷内的绝缘层上延伸的选择性外延层。 在外延层上生长栅极氧化物之后,可以在外延层上形成FET和DRAM电容器。 外延层下方的绝缘层大大降低了电容器的漏电流,提高了DRAM器件性能。 这种自对准方法也增加了存储单元密度,并且可以集成到当前的DRAM工艺中以降低成本。
    • 2. 发明授权
    • Method for making low-leakage DRAM structures using selective silicon epitaxial growth (SEG) on an insulating layer
    • 在绝缘层上制造使用选择性硅外延生长(SEG)的低泄漏DRAM结构的方法
    • US06319772B1
    • 2001-11-20
    • US09697946
    • 2000-10-30
    • Kheng Chok TeeRandall Cher Liang ChaLap Chan
    • Kheng Chok TeeRandall Cher Liang ChaLap Chan
    • H01L218242
    • H01L27/10873H01L27/10808
    • Low current leakage DRAM structures are achieved using a selective silicon epitaxial growth over an insulating layer on memory cell (device) areas. An insulating layer, that also serves as a stress-release layer, and a Si3N4 hard mask are patterned to leave portions over the memory cell areas. Shallow trenches are etched in the substrate and filled with a CVD oxide which is polished back to the hard mask to form shallow trench isolation (STI) around the memory cell areas. The hard mask is selectively removed to form recesses in the STI aligned over the memory cell areas exposing the underlying insulating layer. Openings are etched in the insulating layer to provide a silicon-seed surface from which is grown a selective epitaxial layer extending over the insulating layer within the recesses. After growing a gate oxide on the epitaxial layer, FETs and DRAM capacitors can be formed on the epitaxial layer. The insulating layer under the epitaxial layer drastically reduces the capacitor leakage current and improves DRAM device performance. This self-aligning method also increases memory cell density, and is integratable into current DRAM processes to reduce cost.
    • 使用在存储器单元(器件)区域上的绝缘层上的选择性硅外延生长来实现低电流泄漏DRAM结构。 也用作应力释放层的绝缘层和Si 3 N 4硬掩模被图案化以在存储器单元区域上留下部分。 在衬底中蚀刻浅沟槽,并填充有CVD氧化物,其被抛光回硬掩模以在存储器单元区域周围形成浅沟槽隔离(STI)。 选择性地去除硬掩模,以在STI暴露下面的绝缘层的存储单元区域上对准STI中形成凹槽。 在绝缘层中蚀刻开口以提供硅种子表面,从该晶种表面生长在凹陷内的绝缘层上延伸的选择性外延层。 在外延层上生长栅极氧化物之后,可以在外延层上形成FET和DRAM电容器。 外延层下方的绝缘层大大降低了电容器的漏电流,提高了DRAM器件性能。 这种自对准方法也增加了存储单元密度,并且可以集成到当前的DRAM工艺中以降低成本。
    • 3. 发明授权
    • Method to form a cross network of air gaps within IMD layer
    • 在IMD层内形成气隙交叉网络的方法
    • US07112866B2
    • 2006-09-26
    • US10796893
    • 2004-03-09
    • Lap ChanCher Liang ChaKheng Chok Tee
    • Lap ChanCher Liang ChaKheng Chok Tee
    • H01L29/00H01L23/48H01L21/331H01L21/4765
    • H01L21/7682H01L23/5222H01L23/53295H01L2924/0002H01L2924/00
    • The invention provides a new multilevel interconnect structure of air gaps in a layer of IMD. A first layer of dielectric is provided over a surface; the surface contains metal points of contact. Trenches are provided in this first layer of dielectric. The trenches are filled with a first layer of nitride or disposable solid and polished. A second layer of dielectric is deposited over the first layer of dielectric. Trenches are formed in the second layer of dielectric, a second layer of nitride or disposable solid is deposited over the second layer of dielectric. The layer of nitride or disposable solid is polished. A thin layer of oxide is deposited over the surface of the second layer of dielectric. The thin layer of oxide is masked and etched thereby creating openings in this thin layer of oxide, these openings align with the points of intersect of the trenches in the first layer of dielectric and in the second layer of dielectric. The nitride or removable solid is removed from the trenches. The openings in the thin layer of oxide are closed off leaving a network of trenches that are filled with air in the two layers of dielectric that now function as the Inter Level Dielectric.
    • 本发明提供了在IMD层中的空气间隙的新的多层互连结构。 在表面上提供第一层电介质; 表面含有金属接触点。 在第一层电介质中设置沟槽。 沟槽填充有第一层氮化物或一次性固体并抛光。 第二层介质沉积在第一层电介质上。 沟槽形成在第二层电介质中,第二层氮化物或一次性固体沉积在第二层电介质上。 抛光氮化物或一次性固体层。 在第二电介质层的表面上沉积薄层的氧化物。 氧化物的薄层被掩蔽和蚀刻,从而在该薄层氧化物中形成开口,这些开口与第一介电层和第二介质层中的沟槽的交叉点对准。 氮化物或可移除的固体从沟槽中去除。 氧化物薄层中的开口被封闭,留下在两层电介质中充满空气的沟槽网络,现在这两层电介质用作Inter Level Dielectric。
    • 5. 发明授权
    • Passivation of copper interconnect surfaces with a passivating metal layer
    • 用钝化金属层钝化铜互连表面
    • US06468906B1
    • 2002-10-22
    • US09617009
    • 2000-07-14
    • Lap ChanKuan Pei YapKheng Chok TeeFlora S. IpWye Boon Loh
    • Lap ChanKuan Pei YapKheng Chok TeeFlora S. IpWye Boon Loh
    • H01L2144
    • H01L21/76849H01L21/76858H01L21/76867H01L21/76886
    • An interconnect line on an IMD layer on a semiconductor device is formed in an interconnect hole in the IMD layer. The interconnect hole has walls and a bottom in the IMD layer. A diffusion barrier is formed on the walls and the bottom of the hole. Fill the interconnect hole with a copper metal line. Perform a CMP step to planarize the device and to remove copper above the IMD layer. Deposit a passivating metal layer on the surface of the copper metal line encapsulating the copper metal line at the top of the hole. Alternatively, a blanket deposit of a copper metal line layer covers the diffusion layer and fills the interconnect hole with a copper metal line. Perform a CMP process to planarize the device to remove copper above the IMD layer. Deposit a passivating metal layer on the surface of the copper metal line encapsulating the copper metal line at the top of the hole in a self-aligned deposition process.
    • 在IMD层中的互连孔中形成半导体器件上的IMD层上的互连线。 互连孔在IMD层中具有壁和底部。 在孔的壁和底部形成扩散阻挡层。 用铜金属线填充互连孔。 执行CMP步骤以使器件平坦化,并移除IMD层上方的铜。 在孔的顶部包埋铜金属线的铜金属线的表面上沉积钝化金属层。 或者,铜金属线层的覆盖沉积覆盖扩散层并用铜金属线填充互连孔。 执行CMP工艺以平坦化器件以去除IMD层上方的铜。 在自对准沉积工艺中,在孔的顶部封装铜金属线的铜金属线的表面上沉积钝化金属层。
    • 7. 发明授权
    • Method to form a cross network of air gaps within IMD layer
    • 在IMD层内形成气隙交叉网络的方法
    • US06730571B1
    • 2004-05-04
    • US09418029
    • 1999-10-14
    • Lap ChanCher Liang ChaKheng Chok Tee
    • Lap ChanCher Liang ChaKheng Chok Tee
    • H01L21331
    • H01L21/7682H01L23/5222H01L23/53295H01L2924/0002H01L2924/00
    • In accordance with the objectives of the invention a new method is provided for creating air gaps in a layer of IMD. First and second layers of dielectric are successively deposited over a surface; the surface contains metal lines running in an Y-direction. Trenches are etched in the first and second layer of dielectric in an X and Y-direction respectively. The trenches are filled with a layer of nitride and polished. A thin layer of oxide is deposited over the surface of the second layer of dielectric. Openings are created through the thin layer of oxide that align with the points of intersect of the nitride in the trenches in the layers of dielectric. The nitride is removed from the trenches by a wet etch, thereby opening trenches in the layers of dielectric with both sets of trenches being interconnected. The openings in the thin layer of oxide are closed, leaving a network of trenches containing air in the two layers of dielectric.
    • 根据本发明的目的,提供了一种用于在IMD层中产生气隙的新方法。 第一和第二层电介质依次沉积在表面上; 表面包含沿Y方向延伸的金属线。 在第一和第二电介质层中分别在X和Y方向上蚀刻沟槽。 沟槽填充有一层氮化物并抛光。 在第二电介质层的表面上沉积薄层的氧化物。 通过与电介质层中的沟槽中的氮化物的交叉点对准的氧化物薄层产生开口。 通过湿蚀刻从沟槽中去除氮化物,从而在两组沟槽互连的情况下打开电介质层中的沟槽。 氧化物薄层中的开口是封闭的,留下在两层电介质中含有空气的沟槽网络。