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
    • 1. 发明授权
    • Method for forming a semiconductor device
    • 半导体器件形成方法
    • US06171910B2
    • 2001-01-09
    • US09358213
    • 1999-07-21
    • Christopher C. HobbsBikas MaitiWei Wu
    • Christopher C. HobbsBikas MaitiWei Wu
    • H01L21336
    • H01L21/823842
    • First and second dummy structures (201 and 202) are formed over a semiconductor device substrate (10). In one embodiment, portions of the first dummy structure (201) are removed and replaced with a first conductive material (64) to form a first gate electrode (71) and portions of second dummy structure (202) are removed and replaced with a second conductive material (84) to form a second gate electrode (91). In an alternate embodiment, the dummy structures (201 and 202) are formed using a first conductive material (164) that is used to form the first electrode (71). The second electrode is then formed by removing the first conductive material (164) from dummy structures (202) and replacing it with a second conductive material (84). In accordance with embodiments of the present invention, the first conductive material and the second conductive material are different conductive materials.
    • 第一和第二虚拟结构(201和202)形成在半导体器件衬底(10)上。 在一个实施例中,去除第一虚拟结构(201)的部分并用第一导电材料(64)代替以形成第一栅电极(71),并且去除第二虚拟结构(202)的部分并用第二 导电材料(84)以形成第二栅电极(91)。 在替代实施例中,使用用于形成第一电极(71)的第一导电材料(164)形成虚拟结构(201和202)。 然后通过从虚拟结构(202)去除第一导电材料(164)并用第二导电材料(84)代替第二电极而形成第二电极。 根据本发明的实施例,第一导电材料和第二导电材料是不同的导电材料。
    • 5. 发明授权
    • Selective removal of a metal oxide dielectric
    • 选择性去除金属氧化物电介质
    • US06300202B1
    • 2001-10-09
    • US09574732
    • 2000-05-18
    • Christopher C. HobbsRama I. HegdePhillip J. Tobin
    • Christopher C. HobbsRama I. HegdePhillip J. Tobin
    • H01L21336
    • H01L21/28185H01L21/28035H01L21/2807H01L21/28088H01L21/28194H01L21/28202H01L21/3105H01L21/31111H01L21/31116H01L21/31122H01L21/32136H01L29/4966H01L29/517H01L29/518
    • A method for forming a semiconductor device is disclosed in which a metal oxide gate dielectric layer is formed over a substrate. A gate electrode is then formed over the metal oxide layer thereby exposing a portion of the metal oxide layer. The exposed portion of the metal oxide gate dielectric layer is then chemically reduced to a metal or a metal hydride. The metal or metal hydride is then removed with a conventional wet etch or wet/dry etch combination. The metal oxide layer may include a metal element such as zirconium, tantalum, hafnium, titanium, or lanthanum and may further include an additional element such as silicon or nitrogen. Reducing the metal oxide layer may includes annealing the metal oxide gate dielectric layer in an ambient with an oxygen partial pressure that is less than a critical limit for oxygen desorption at a given temperature. In another embodiment, reducing the metal oxide gate dielectric layer may include annealing the metal oxide layer while supplying a hydrogen-containing precursor such as silane, ammonia, germane, hydrogen, and hydrazine to the metal oxide gate dielectric layer. The gate electrode may comprise a gate electrode stack that includes a titanium nitride layer over the metal oxide gate dielectric layer and a silicon-containing capping layer over the titanium nitride layer.
    • 公开了一种用于形成半导体器件的方法,其中在衬底上形成金属氧化物栅极电介质层。 然后在金属氧化物层上形成栅电极,从而暴露金属氧化物层的一部分。 然后将金属氧化物栅介质层的暴露部分化学还原成金属或金属氢化物。 然后用常规的湿蚀刻或湿/干蚀刻组合去除金属或金属氢化物。 金属氧化物层可以包括诸如锆,钽,铪,钛或镧的金属元素,并且还可以包括另外的元素如硅或氮。 还原金属氧化物层可以包括在氧气分压下在金属氧化物栅极电介质层中退火,其氧分压小于在给定温度下氧解吸的临界极限。 在另一个实施方案中,还原金属氧化物栅极电介质层可以包括使金属氧化物层退火,同时向金属氧化物栅极电介质层供应诸如硅烷,氨,锗烷,氢和肼的含氢前体。 栅电极可以包括栅极电极堆叠,其在金属氧化物栅极介电层上方包括氮化钛层,并且在氮化钛层上方包含含硅覆盖层。
    • 10. 发明授权
    • Method for forming a dual gate oxide device using a metal oxide and resulting device
    • 使用金属氧化物形成双栅极氧化物的方法和所得到的器件
    • US06787421B2
    • 2004-09-07
    • US10219522
    • 2002-08-15
    • David C. GilmerChristopher C. HobbsHsing-Huang Tseng
    • David C. GilmerChristopher C. HobbsHsing-Huang Tseng
    • H01L218234
    • H01L21/823462H01L21/31604H01L21/3162H01L28/56Y10S438/981
    • A semiconductor device (10) having two different gate dielectric thicknesses is formed using a single high-k dielectric layer, preferably a metal oxide. A thicker first gate dielectric (16) is formed in a region of the device for higher voltage requirements, e.g. an I/O region (24). A thinner second gate dielectric (20) is formed in a region of the device for lower voltage requirements, e.g. a core device region (22). First and second dielectrics are preferably silicon dioxide or oxynitride. A metal oxide (26) is deposited over both dielectrics, followed by deposition of a gate electrode material (28). By using a single metal oxide layer in forming the gate dielectric stack for each transistor, together with high quality silicon dioxide or oxynitride dielectric layers, problems associated with selective etching of the metal oxide may be avoided, as may problems associated with various interfaces between the metal oxide and damaged or treated surfaces.
    • 具有两个不同栅介质厚度的半导体器件(10)使用单个高k电介质层,优选金属氧化物形成。 在器件的区域中形成较厚的第一栅极电介质(16),用于更高电压要求,例如, I / O区域(24)。 在器件的一个区域中形成较薄的第二栅极电介质(20),用于降低电压要求,例如, 核心设备区域(22)。 第一和第二电介质优选为二氧化硅或氧氮化物。 金属氧化物(26)沉积在两个电介质上,随后沉积栅电极材料(28)。 通过在形成每个晶体管的栅极电介质堆叠中使用单个金属氧化物层以及高质量的二氧化硅或氧氮化物电介质层,可以避免与金属氧化物的选择性蚀刻相关的问题,这可能与在 金属氧化物和损坏或处理过的表面。