会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明授权
    • Production of films of SiO.sub.2 by chemical vapor deposition
    • 通过化学气相沉积生产SiO2膜
    • US5593727A
    • 1997-01-14
    • US148391
    • 1993-11-08
    • Seshu B. DesuChien-Hsiung PengTian ShiPradyot A. Agaskar
    • Seshu B. DesuChien-Hsiung PengTian ShiPradyot A. Agaskar
    • C01B33/00C08G77/12C23C16/00
    • C08G77/12C01B33/00
    • The chemical vapor deposition of hydridospherosiloxane to generate films of SiO.sub.2 at low temperatures on substrates that cannot withstand high temperatures. The chemical vapor deposition process synthesized compounds with the general formula,(HSiO.sub.3/2).sub.n,with n being an even number ranging from 8 to a very large number. More particularly, it relates to the vapor deposition of oligomeric hydrogensilsesquioxanes, henceforth referred to as hydridospherosiloxanes. The hydridospherosiloxanes are used directly in a chemical vapor deposition reactor to generate films of SiO.sub.2 at low temperatures on substrates that cannot withstand high temperatures. Hydridospherosiloxanes and soluble hydrogensilsesquioxane resin are produced having the formula(HSiO.sub.3/2).sub.n,where n is an even integer greater than 8.
    • 化学气相沉积氢化间苯二甲硅氧烷以在不能承受高温的基材上在低温下产生SiO 2膜。 化学气相沉积工艺合成具有通式(HSiO3 / 2)n的化合物,其中n为8至非常大的偶数。 更具体地说,本发明涉及低聚氢倍半硅氧烷的气相沉积,此后称为氢化间苯二甲硅氧烷。 氢化间苯二甲硅氧烷直接用于化学气相沉积反应器,以在低温下在不能承受高温的基材上产生SiO 2膜。 产生具有式(HSiO3 / 2)n的氢化间苯二酚硅烷和可溶性倍半硅氧烷树脂,其中n是大于8的偶数整数。
    • 4. 发明授权
    • Metalorganic chemical vapor deposition of ferroelectric thin films
    • 铁电薄膜的金属有机化学气相沉积
    • US5431958A
    • 1995-07-11
    • US999738
    • 1992-12-31
    • Seshu B. DesuChien-Hsiung Peng
    • Seshu B. DesuChien-Hsiung Peng
    • C23C16/40
    • C23C16/409
    • A method to produce high quality doped and undoped lead zirconate titanate (PZT) thin films by metalorganic chemical vapor deposition is disclosed. The PZT thin films with the perovskite structure were deposited on sapphire disks, Pt/Ti/SiO.sub.2 /Si wafers, and RuO.sub.x /SiO.sub.2 /Si wafers by both hot-wall and cold-wall CVD reactors at deposition temperature as low as 550.degree. C. and a reduced pressure 6 torr. The source materials include metalorganic precursors and oxidizing agent. The metalorganic precursors can be metal alkoxides, metal acetylacetonates, or metal .beta.-diketonates. Preferably, the precursors are lead tetramethylheptadione for Pb component, zirconium tetramethylheptadione for Zr component, and titanium ethoxide for Ti component and the oxidizing agent is oxygen. The stoichiometry of the films can be easily controlled by varying the individual precursor temperature and/or the flow rate of the carrier gas. The Pb(Zr.sub.0.82 Ti.sub.0.18)O.sub.3 film produced by the present invention shows a spontaneous polarization of 23.3 .mu.C/cm.sup.2, a remanent polarization of 12.3 .mu.C/cm.sup.2, and coercive field of 64.5 kV/cm.
    • 公开了通过金属有机化学气相沉积生产高质量掺杂和未掺杂的锆钛酸铅(PZT)薄膜的方法。 具有钙钛矿结构的PZT薄膜通过热壁和冷壁CVD反应器在低至550℃的沉积温度下沉积在蓝宝石盘,Pt / Ti / SiO 2 / Si晶片和RuO x / SiO 2 / Si晶片上 并减压6乇。 源材料包括金属有机前体和氧化剂。 金属有机前体可以是金属醇盐,金属乙酰丙酮化物或金属β-二酮化物。 优选地,前体是Pb组分的铅四甲基庚二酮,Zr组分的四甲基庚二酸锆和Ti组分的乙醇钛,氧化剂是氧。 可以通过改变载体气体的各个前体温度和/或流速来容易地控制膜的化学计量。 本发明生产的Pb(Zr0.82Ti0.18)O3膜的自发极化为23.3μC/ cm2,剩余极化为12.3μC/ cm 2,矫顽磁场为64.5kV / cm。
    • 6. 发明授权
    • Partial silicidation method to form shallow source/drain junctions
    • 部分硅化法形成浅源极/漏极结
    • US6071782A
    • 2000-06-06
    • US23383
    • 1998-02-13
    • Jer-Shen MaaSheng Teng HsuChien-Hsiung Peng
    • Jer-Shen MaaSheng Teng HsuChien-Hsiung Peng
    • H01L21/28H01L21/285H01L21/336H01L21/60H01L29/78H01L21/44
    • H01L21/28518H01L29/665H01L21/28052H01L29/6659
    • A process of forming silicide at uniform rates across the entire source/drain region is provided. A two-step annealing method permits the thickness of the silicide formed on the edge of a silicon electrode to be substantially the same as it is in the center of the electrode. A first, low temperature anneal begins the salicidation process across the source/drain electrode surface. The time and temperature are controlled so that the metal is only partially consumed. The annealing is interrupted to remove excess silicidation metal, especially the unreacted metal overlying oxide areas neighboring the silicon electrode. Then, the silicidation is completed at a higher temperature anneal. Because the excess metal has been removed, the resulting silicide layer is uniformly flat, permitting the transistor to be fabricated with shallow junction areas and low leakage currents. In one embodiment of the invention, the crystalline structure of source and drain surfaces is annihilated before the deposition of metal, to lower annealing temperatures and add precise control to the silicidation process. A transistor having a uniformly thick silicide layer, fabricated in accordance with the above-mentioned method, is also provided.
    • 提供了在整个源极/漏极区域以均匀的速率形成硅化物的工艺。 两步退火方法允许形成在硅电极边缘上的硅化物的厚度与电极中心基本相同。 首先,低温退火开始跨越源/漏电极表面的盐析过程。 控制时间和温度,使得金属仅被部分消耗。 中断退火以去除过量的硅化金属,特别是覆盖与硅电极相邻的氧化物区域的未反应的金属。 然后,在较高温度的退火下完成硅化。 由于去除了多余的金属,所得到的硅化物层是均匀平坦的,从而允许晶体管被制造成具有浅结的区域和低的漏电流。 在本发明的一个实施例中,源极和漏极表面的晶体结构在金属沉积之前被消除,以降低退火温度并且增加对硅化工艺的精确控制。 还提供了具有根据上述方法制造的均匀厚的硅化物层的晶体管。
    • 7. 发明授权
    • Nitride overhang structures for the silicidation of transistor
electrodes with shallow junction
    • 氮化硅突出结构用于具有浅结的晶体管电极的硅化
    • US5989965A
    • 1999-11-23
    • US23032
    • 1998-02-13
    • Jer-Shen MaaSheng Teng HsuChien-Hsiung Peng
    • Jer-Shen MaaSheng Teng HsuChien-Hsiung Peng
    • H01L21/28H01L21/285H01L21/336H01L21/8234H01L27/088H01L29/78
    • H01L29/6659H01L21/28052H01L21/28518H01L29/665H01L29/6656
    • A method of forming a temporary overhang structure to shield the source/drain edges near the gate electrode from the deposition of silicidation metal is provided. The growth of silicide on the source/drain regions remains controlled, without the presence of silicidation metal on the gate electrode sidewalls near the source/drain edges. The resulting silicide layer does not have edge growths interfering with the source/drain junction areas. The overhang structure is formed by covering the gate electrode with two insulators having differing etch selectivities. The top insulator is anisotropically etched so that only the top insulator covering the gate electrode vertical sidewalls remains. The exposed bottom insulator is isotropically etched to form a gap between the top insulator and the source/drain region surfaces. When silicidation metal is deposited, the gap prevents the deposition of metal between the gate electrode and the source/drain region surfaces. A transistor, with an overhang structure, fabricated by the above-mentioned procedure is also provided.
    • 提供了形成临时突出结构以屏蔽栅电极附近的源/漏边缘与沉积硅化金属的方法。 源极/漏极区域上的硅化物的生长保持受控,而在源极/漏极边缘附近的栅电极侧壁上不存在硅化金属。 所得到的硅化物层不具有干扰源极/漏极结区域的边缘增长。 通过用具有不同蚀刻选择性的两个绝缘体覆盖栅电极来形成突出结构。 顶绝缘体被各向异性地蚀刻,使得仅覆盖覆盖栅电极垂直侧壁的顶绝缘体保留。 暴露的底部绝缘体被各向同性地蚀刻以在顶部绝缘体和源极/漏极区域表面之间形成间隙。 当沉积硅化金属时,间隙防止金属沉积在栅电极和源/漏区表面之间。 还提供了通过上述方法制造的具有突出结构的晶体管。
    • 8. 发明授权
    • Shallow junction ferroelectric memory cell having a laterally extending
p-n junction and method of making the same
    • 具有横向延伸的p-n结的浅结铁电存储器单元及其制造方法
    • US6018171A
    • 2000-01-25
    • US834499
    • 1997-04-04
    • Sheng Teng HsuJong Jan LeeChien-Hsiung Peng
    • Sheng Teng HsuJong Jan LeeChien-Hsiung Peng
    • G11C11/22H01L21/28H01L21/8246H01L21/84H01L27/115H01L29/78H01L21/8242
    • G11C11/22H01L21/28291H01L21/84H01L27/11502H01L27/11585H01L27/1159H01L29/78391G11C11/223Y10S438/957
    • A method of forming the FEM cell semi-conductor structure includes forming a device area for the ferroelectric memory (FEM) gate unit on a silicon substrate. Appropriate impurities are implanted into the device area to form conductive channels, for use as a source junction region, a gate junction region and a drain junction region. A FEM cell includes a FEM gate unit formed on the substrate. A gate junction region is formed between the source junction region and the drain junction region for the FEM gate unit on the FEM gate unit device area, which FEM gate unit includes a lower metal layer, a ferroelectric (FE) layer, and an upper metal layer. A shallow junction layer is formed between the FEM gate unit and the gate junction region, as another conductive channel, which extends into the drain junction region. The FEM gate unit is spaced apart from the source region and the drain region, as is the conductive channel between the FEM gate unit and the gate junction region. Formation of the various conductive channels may take place at various stages of the manufacture, depending on what other devices are built on the substrate, and depending on the efficiencies of the various orders of construction. The structure of the FEM cell semiconductor includes a substrate, which may be a bulk silicon substrate or an SOI-type substrate. Conductive channels of two types are located above the substrate.
    • 形成FEM单元半导体结构的方法包括在硅衬底上形成用于铁电存储器(FEM)栅极单元的器件区域。 将合适的杂质注入器件区域以形成导电沟道,用作源极结区域,栅极结区域和漏极结区域。 FEM单元包括形成在基板上的FEM门单元。 在FEM栅极单元器件区域上的FEM栅极单元的源极连接区域和漏极结区域之间形成栅极结区域,该FEM栅极单元包括下部金属层,铁电(FE)层和上部金属 层。 在FEM栅极单元和栅极结区域之间形成浅接合层,作为延伸到漏极结区域的另一个导电沟道。 有限元门单元与源极区和漏极区间隔开,也就是FEM门单元和栅极结区之间的导电沟道。 各种导电通道的形成可以在制造的各个阶段进行,这取决于衬底上构建的其它器件,以及各种施工顺序的效率。 FEM单元半导体的结构包括可以是体硅基板或SOI型基板的基板。 两种类型的导电通道位于基板上方。
    • 9. 发明授权
    • Hard mask method for transferring a multi-level photoresist pattern
    • 用于转印多层光刻胶图案的硬掩模方法
    • US5821169A
    • 1998-10-13
    • US692379
    • 1996-08-05
    • Tue NguyenChien-Hsiung PengBruce Dale Ulrich
    • Tue NguyenChien-Hsiung PengBruce Dale Ulrich
    • H01L21/302G03F7/00H01L21/027H01L21/304H01L21/3065H01L21/311H01L21/3205H01L21/768H01L23/52H01L23/522H01L21/00B44C1/22
    • H01L21/76811G03F7/00H01L21/0274H01L21/31144H01L21/76802H01L21/76804H01L21/76813H01L2221/1021
    • A method is provided for forming intermediate levels in an integrated circuit dielectric during a damascene process using a hard mask layer to transfer the pattern of a photoresist mask having at least one intermediate thickness. The dielectric is covered with a hard mask layer, and the hard mask layer is covered with the photoresist mask. The photoresist mask pattern is transferred into the hard mask pattern so that the hard mask pattern has at least one intermediate thickness. The method forms an interconnect to a first depth in the dielectric through an opening in the hard mask pattern. The hard mask pattern is partially etched away in the area of the intermediate thickness to reveal a second dielectric surface area. The second dielectric surface area is etched to a second depth, less than the first depth. In this manner, vias can be formed to the first depth, and lines can be formed at a second depth to intersect the vias. The use of a relatively thin hard mask pattern reduces the degradation of vertical surface features, due to faceting, which generally occurs with the use of a thicker photoresist pattern. The method of the present invention allows a multi-level damascene process to be used to form features with relatively small geometries in the dielectric.
    • 提供一种用于在镶嵌工艺期间在集成电路电介质中形成中间层的方法,其中使用硬掩模层来传递具有至少一个中间厚度的光致抗蚀剂掩模的图案。 电介质用硬掩模层覆盖,并且硬掩模层被光致抗蚀剂掩模覆盖。 将光致抗蚀剂掩模图案转印到硬掩模图案中,使得硬掩模图案具有至少一个中间厚度。 该方法通过硬掩模图案中的开口形成到电介质中的第一深度的互连。 硬掩模图案在中间厚度的区域中被部分地蚀刻掉以露出第二电介质表面积。 第二电介质表面积被蚀刻到比第一深度小的第二深度。 以这种方式,可以将通孔形成为第一深度,并且可以在第二深度处形成线以与通孔相交。 使用相对薄的硬掩模图案由于刻面而减少垂直表面特征的劣化,这通常通过使用较厚的光致抗蚀剂图案而发生。 本发明的方法允许使用多层镶嵌工艺来形成电介质中具有较小几何形状的特征。
    • 10. 发明授权
    • Nitride overhang structure for the silicidation of transistor electrodes with shallow junctions
    • 用于具有浅结的晶体管电极的硅化的氮化物突出结构
    • US06339245B1
    • 2002-01-15
    • US09378653
    • 1999-08-20
    • Jer-Shen MaaSheng Teng HsuChien-Hsiung Peng
    • Jer-Shen MaaSheng Teng HsuChien-Hsiung Peng
    • H01L2976
    • H01L29/6659H01L21/28052H01L21/28518H01L29/665H01L29/6656
    • A method of forming a temporary overhang structure to shield the source/drain edges near the gate electrode from the deposition of silicidation metal is provided. The growth of silicide on the source/drain regions remains controlled, without the presence of silicidation metal on the gate electrode sidewalls near the source/drain edges. The resulting silicide layer does not have edge growths interfering with the source/drain junction areas. The overhang structure is formed by covering the gate electrode with two insulators having differing etch selectivities. The top insulator is anisotropically etched so that only the top insulator covering the gate electrode vertical sidewalls remains. The exposed bottom insulator is isotropically etched to form a gap between the top insulator and the source/drain region surfaces. When silicidation metal is deposited, the gap prevents the deposition of metal between the gate electrode and the source/drain region surfaces. A transistor, with an overhang structure, fabricated by the above-mentioned procedure is also provided.
    • 提供了形成临时突出结构以屏蔽栅电极附近的源/漏边缘与沉积硅化金属的方法。 源极/漏极区域上的硅化物的生长保持受控,而在源极/漏极边缘附近的栅电极侧壁上不存在硅化金属。 所得到的硅化物层不具有干扰源极/漏极结区域的边缘增长。 通过用具有不同蚀刻选择性的两个绝缘体覆盖栅电极来形成突出结构。 顶绝缘体被各向异性地蚀刻,使得仅覆盖覆盖栅电极垂直侧壁的顶绝缘体保留。 暴露的底部绝缘体被各向同性地蚀刻以在顶部绝缘体和源极/漏极区域表面之间形成间隙。 当沉积硅化金属时,间隙防止金属沉积在栅电极和源/漏区表面之间。 还提供了通过上述程序制造的具有突出结构的晶体管。