Method of forming semiconductor structures with reduced step heights
    1.
    发明授权
    Method of forming semiconductor structures with reduced step heights 失效
    以阶梯高度降低形成半导体结构的方法

    公开(公告)号:US06777307B1

    公开(公告)日:2004-08-17

    申请号:US10010833

    申请日:2001-12-04

    IPC分类号: H01L2176

    摘要: A method is provided which includes planarizing structures and/or layers such that step heights of reduced and more uniform thicknesses may be formed. In particular, a method is provided which includes polishing an upper layer of a topography to expose a first underlying layer and etching away remaining portions of the first underlying layer to expose a second underlying layer. The topography may then be subsequently planarized. As such, a method for fabricating shallow trench isolation regions may include forming one or more trenches extending through a stack arranged over a semiconductor substrate. Such a method may further include blanket depositing a dielectric over the trenches and the stack of layers such that the trenches are filled by the dielectric. The dielectric may then be planarized such that upper surfaces of the dielectric remaining within the trenches are coplanar with an upper surface of an adjacent layer of the stack.

    摘要翻译: 提供了一种包括平坦化结构和/或层的方法,使得可以形成减小和更均匀厚度的台阶高度。 特别地,提供了一种方法,其包括抛光地形的上层以暴露第一下层并蚀刻掉第一下层的剩余部分以暴露第二下层。 随后可以将形貌平面化。 因此,用于制造浅沟槽隔离区域的方法可以包括形成延伸穿过布置在半导体衬底上的堆叠的一个或多个沟槽。 这种方法还可以包括在沟槽和层叠层上覆盖电介质,使得沟槽被电介质填充。 然后电介质可以被平坦化,使得保留在沟槽内的电介质的上表面与堆叠的相邻层的上表面共面。

    SONOS stack with split nitride memory layer
    2.
    发明授权
    SONOS stack with split nitride memory layer 有权
    SONOS堆叠带有划痕的氮化物存储层

    公开(公告)号:US08710578B2

    公开(公告)日:2014-04-29

    申请号:US13431069

    申请日:2012-03-27

    IPC分类号: H01L29/792

    摘要: Embodiments of a non-planar memory device including a split charge-trapping region and methods of forming the same are described. Generally, the device comprises: a channel formed from a thin film of semiconducting material overlying a surface on a substrate connecting a source and a drain of the memory device; a tunnel oxide overlying the channel; a split charge-trapping region overlying the tunnel oxide, the split charge-trapping region including a bottom charge-trapping layer comprising a nitride closer to the tunnel oxide, and a top charge-trapping layer, wherein the bottom charge-trapping layer is separated from the top charge-trapping layer by a thin anti-tunneling layer comprising an oxide. Other embodiments are also disclosed.

    摘要翻译: 描述了包括分离电荷捕获区域的非平面存储器件及其形成方法的实施例。 通常,该器件包括:由覆盖存储器件的源极和漏极的衬底上的表面的半导体材料薄膜形成的沟道; 覆盖通道的隧道氧化物; 分离电荷捕获区域,覆盖隧道氧化物,分离电荷捕获区域包括底部电荷捕获层,其包含更接近隧道氧化物的氮化物,以及顶部电荷捕获层,其中底部电荷捕获层被分离 从顶部的电荷捕获层通过包含氧化物的薄的抗隧道层。 还公开了其他实施例。

    METHOD OF ONO INTEGRATION INTO LOGIC CMOS FLOW
    3.
    发明申请
    METHOD OF ONO INTEGRATION INTO LOGIC CMOS FLOW 有权
    ONO集成到逻辑CMOS流的方法

    公开(公告)号:US20130178030A1

    公开(公告)日:2013-07-11

    申请号:US13434347

    申请日:2012-03-29

    IPC分类号: H01L21/336

    摘要: An embodiment of a method of integration of a non-volatile memory device into a logic MOS flow is described. Generally, the method includes: forming a pad dielectric layer of a MOS device above a first region of a substrate; forming a channel of the memory device from a thin film of semiconducting material overlying a surface above a second region of the substrate, the channel connecting a source and drain of the memory device; forming a patterned dielectric stack overlying the channel above the second region, the patterned dielectric stack comprising a tunnel layer, a charge-trapping layer, and a sacrificial top layer; simultaneously removing the sacrificial top layer from the second region of the substrate, and the pad dielectric layer from the first region of the substrate; and simultaneously forming a gate dielectric layer above the first region of the substrate and a blocking dielectric layer above the charge-trapping layer.

    摘要翻译: 描述了将非易失性存储器件集成到逻辑MOS流中的方法的实施例。 通常,该方法包括:在衬底的第一区域之上形成MOS器件的焊盘电介质层; 从半导体材料的薄膜形成存储器件的沟道,该半导体材料的薄膜覆盖在衬底的第二区域上方的表面,所述通道连接存储器件的源极和漏极; 形成覆盖在第二区域上方的通道上的图案化电介质堆叠,所述图案化电介质叠层包括隧道层,电荷俘获层和牺牲顶层; 同时从衬底的第二区域去除牺牲顶层,以及从衬底的第一区域去除焊盘介电层; 并且同时在衬底的第一区域上方形成栅极电介质层,并且在电荷俘获层上方形成阻挡电介质层。

    OXIDE-NITRIDE-OXIDE STACK HAVING MULTIPLE OXYNITRIDE LAYERS
    4.
    发明申请
    OXIDE-NITRIDE-OXIDE STACK HAVING MULTIPLE OXYNITRIDE LAYERS 有权
    具有多个氧化物层的氧化物 - 氮氧化物堆

    公开(公告)号:US20130175504A1

    公开(公告)日:2013-07-11

    申请号:US13436872

    申请日:2012-03-31

    IPC分类号: H01L29/775

    摘要: An embodiment of a semiconductor memory device including a multi-layer charge storing layer and methods of forming the same are described. Generally, the device includes a channel formed from a semiconducting material overlying a surface on a substrate connecting a source and a drain of the memory device; a tunnel oxide layer overlying the channel; and a multi-layer charge storing layer including an oxygen-rich, first oxynitride layer on the tunnel oxide layer in which a stoichiometric composition of the first oxynitride layer results in it being substantially trap free, and an oxygen-lean, second oxynitride layer on the first oxynitride layer in which a stoichiometric composition of the second oxynitride layer results in it being trap dense. In one embodiment, the device comprises a non-planar transistor including a gate having multiple surfaces abutting the channel, and the gate comprises the tunnel oxide layer and the multi-layer charge storing layer.

    摘要翻译: 描述了包括多层电荷存储层的半导体存储器件的实施例及其形成方法。 通常,该器件包括由半导体材料形成的沟道,该半导体材料覆盖连接存储器件的源极和漏极的衬底上的表面; 覆盖通道的隧道氧化物层; 以及多层电荷存储层,其在所述隧道氧化物层上包含富氧的第一氧氮化物层,其中所述第一氧氮化物层的化学计量组成导致其基本上无陷阱,并且将贫氧的第二氮氧化物层置于 第一氧氮化物层,其中第二氧氮化物层的化学计量组成导致其陷阱致密。 在一个实施例中,该器件包括非平面晶体管,其包括具有邻接通道的多个表面的栅极,并且栅极包括隧道氧化物层和多层电荷存储层。

    Integration of non-volatile charge trap memory devices and logic CMOS devices
    6.
    发明授权
    Integration of non-volatile charge trap memory devices and logic CMOS devices 有权
    集成非易失性电荷陷阱存储器件和逻辑CMOS器件

    公开(公告)号:US08143129B2

    公开(公告)日:2012-03-27

    申请号:US12185747

    申请日:2008-08-04

    IPC分类号: H01L29/792

    摘要: A semiconductor structure and method to form the same. The semiconductor structure includes a substrate having a non-volatile charge trap memory device disposed on a first region and a logic device disposed on a second region. A charge trap dielectric stack may be formed subsequent to forming wells and channels of the logic device. HF pre-cleans and SC1 cleans may be avoided to improve the quality of a blocking layer of the non-volatile charge trap memory device. The blocking layer may be thermally reoxidized or nitridized during a thermal oxidation or nitridation of a logic MOS gate insulator layer to densify the blocking layer. A multi-layered liner may be utilized to first offset a source and drain implant in a high voltage logic device and also block silicidation of the nonvolatile charge trap memory device.

    摘要翻译: 一种半导体结构及其形成方法。 半导体结构包括具有设置在第一区域上的非易失性电荷陷阱存储器件和设置在第二区域上的逻辑器件的衬底。 可以在形成逻辑器件的阱和通道之后形成电荷陷阱电介质叠层。 可以避免HF预清洗和SC1清洁,以提高非挥发性电荷陷阱存储器件的阻挡层的质量。 在逻辑MOS栅极绝缘体层的热氧化或氮化期间,阻挡层可以被热再氧化或氮化,以致密封阻挡层。 可以使用多层衬垫来首先在高压逻辑器件中偏置源极和漏极注入,并且还阻挡非易失性电荷陷阱存储器件的硅化。

    Trapped-charge non-volatile memory with uniform multilevel programming
    7.
    发明授权
    Trapped-charge non-volatile memory with uniform multilevel programming 有权
    具有均匀多电平编程的陷阱充电非易失性存储器

    公开(公告)号:US07898852B1

    公开(公告)日:2011-03-01

    申请号:US12005803

    申请日:2007-12-27

    IPC分类号: G11C16/04

    摘要: Methods and apparatus for programming and sensing a bi-nitride layer trapped-charge memory device in one of a first and second programmed states or one of a first and second erased states, where the first and second programmed states correspond to first and second uniform trapped charge distributions of a first charge type and the first and second erased states correspond to first and second uniform trapped charge distributions of a second charge type.

    摘要翻译: 用于以第一和第二编程状态或第一和第二擦除状态中的一种编程和感测二氮化物层捕获电荷存储器件的方法和装置,其中第一和第二编程状态对应于第一和第二均匀捕获 第一充电类型和第一和第二擦除状态的电荷分布对应于第二充电类型的第一和第二均匀俘获电荷分布。

    Semiconductor topography including a thin oxide-nitride stack and method for making the same
    8.
    发明授权
    Semiconductor topography including a thin oxide-nitride stack and method for making the same 有权
    包括薄氧化物氮化物堆叠的半导体形貌及其制造方法

    公开(公告)号:US07867918B1

    公开(公告)日:2011-01-11

    申请号:US12046073

    申请日:2008-03-11

    IPC分类号: H01L21/31

    摘要: A semiconductor topography is provided which includes a silicon dioxide layer with a thickness equal to or less than approximately 10 angstroms and a silicon nitride layer arranged upon the silicon dioxide layer. In addition, a method is provided which includes growing an oxide film upon a semiconductor topography in the presence of an ozonated substance and depositing a silicon nitride film upon the oxide film. In some embodiments, the method may include growing the oxide film in a first chamber at a first temperature and transferring the semiconductor topography from the first chamber to a second chamber while the semiconductor topography is exposed to a substantially similar temperature as the first temperature. In either embodiment, the method may be used to form a semiconductor device including an oxide-nitride gate dielectric having an electrical equivalent oxide gate dieletric thickness of less than approximately 20 angstroms.

    摘要翻译: 提供半导体形貌,其包括厚度等于或小于约10埃的二氧化硅层和布置在二氧化硅层上的氮化硅层。 此外,提供了一种方法,其包括在存在臭氧化物质的情况下在半导体形貌上生长氧化膜并在氧化物膜上沉积氮化硅膜。 在一些实施例中,该方法可以包括在第一温度下在第一室中生长氧化膜并将半导体形貌从第一室转移到第二室,同时将半导体形貌暴露于与第一温度基本相似的温度。 在任一实施例中,该方法可用于形成半导体器件,其包括具有小于约20埃的电等效氧化物栅极薄膜厚度的氧化物 - 氮化物栅极电介质。

    Single-wafer process for fabricating a nonvolatile charge trap memory device
    9.
    发明授权
    Single-wafer process for fabricating a nonvolatile charge trap memory device 有权
    用于制造非易失性电荷陷阱存储器件的单晶片工艺

    公开(公告)号:US07670963B2

    公开(公告)日:2010-03-02

    申请号:US11904513

    申请日:2007-09-26

    IPC分类号: H01L21/469

    摘要: A method for fabricating a nonvolatile charge trap memory device is described. The method includes first forming a tunnel dielectric layer on a substrate in a first process chamber of a single-wafer cluster tool. A charge-trapping layer is then formed on the tunnel dielectric layer in a second process chamber of the single-wafer cluster tool. A top dielectric layer is then formed on the charge-trapping layer in the second or in a third process chamber of the single-wafer cluster tool.

    摘要翻译: 描述了制造非易失性电荷陷阱存储器件的方法。 该方法包括首先在单晶片簇工具的第一处理室中的衬底上形成隧道电介质层。 然后在单晶片簇工具的第二处理室中的隧道介电层上形成电荷捕获层。 然后在单晶片簇工具的第二或第三处理室中的电荷俘获层上形成顶部电介质层。

    Techniques for improving negative bias temperature instability (NBTI) lifetime of field effect transistors
    10.
    发明授权
    Techniques for improving negative bias temperature instability (NBTI) lifetime of field effect transistors 有权
    改善场效应晶体管负偏压温度不稳定性(NBTI)寿命的技术

    公开(公告)号:US07629653B1

    公开(公告)日:2009-12-08

    申请号:US11827765

    申请日:2007-07-13

    IPC分类号: H01L29/78

    摘要: In one embodiment, an integrated circuit includes a PMOS transistor having a gate stack comprising a P+ doped gate polysilicon layer and a nitrided gate oxide (NGOX) layer. The NGOX layer may be over a silicon substrate. The integrated circuit further includes an interconnect line formed over the transistor. The interconnect line includes a hydrogen getter material and may comprise a single material or stack of materials. The interconnect line advantageously getters hydrogen (e.g., H2 or H2O) that would otherwise be trapped in the NGOX layer/silicon substrate interface, thereby improving the negative bias temperature instability (NBTI) lifetime of the transistor.

    摘要翻译: 在一个实施例中,集成电路包括具有包括P +掺杂栅极多晶硅层和氮化栅极氧化物(NGOX)层的栅极堆叠的PMOS晶体管。 NGOX层可以在硅衬底之上。 集成电路还包括形成在晶体管上的互连线。 互连线包括吸氢材料,并且可以包括单一材料或材料堆。 互连线有利地吸收否则将被捕获在NGOX层/硅衬底界面中的氢(例如,H 2或H 2 O),从而改善晶体管的负偏压温度不稳定性(NBTI)寿命。