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    • 4. 发明申请
    • Diffusion Barrier Layer for Resistive Random Access Memory Cells
    • 电阻随机存取存储单元的扩散阻挡层
    • US20150188048A1
    • 2015-07-02
    • US14644382
    • 2015-03-11
    • Intermolecular Inc.
    • Yun WangImran Hashim
    • H01L45/00
    • H01L45/146H01L27/2463H01L27/2481H01L45/08H01L45/12H01L45/1233H01L45/1253H01L45/145H01L45/147H01L45/16H01L45/1608H01L45/1616H01L45/1625
    • Provided are resistive random access memory (ReRAM) cells having diffusion barrier layers formed from various materials, such as beryllium oxide or titanium silicon nitrides. Resistive switching layers used in ReRAM cells often need to have at least one inert interface such that substantially no materials pass through this interface. The other (reactive) interface may be used to introduce and remove defects from the resistive switching layers causing the switching. While some electrode materials, such as platinum and doped polysilicon, may form inert interfaces, these materials are often difficult to integrate. To expand electrode material options, a diffusion barrier layer is disposed between an electrode and a resistive switching layer and forms the inert interface with the resistive switching layer. In some embodiments, tantalum nitride and titanium nitride may be used for electrodes separated by such diffusion barrier layers.
    • 提供了具有由各种材料形成的扩散阻挡层的电阻随机存取存储器(ReRAM)单元,例如氧化铍或钛硅氮化物。 在ReRAM单元中使用的电阻开关层通常需要具有至少一个惰性界面,使得基本上没有材料通过该界面。 另一个(反应式)接口可用于引入和去除导致切换的电阻式开关层的缺陷。 虽然一些电极材料(例如铂和掺杂多晶硅)可能形成惰性界面,但是这些材料通常难以整合。 为了扩大电极材料选择,扩散阻挡层设置在电极和电阻开关层之间,并与电阻式开关层形成惰性界面。 在一些实施例中,氮化钽和氮化钛可用于由这种扩散阻挡层分开的电极。
    • 5. 发明申请
    • Atomic Layer Deposition of Metal Oxides for Memory Applications
    • 用于存储器应用的金属氧化物的原子层沉积
    • US20150179935A1
    • 2015-06-25
    • US14624295
    • 2015-02-17
    • Intermolecular Inc.Kabushiki Kaisha ToshibaSanDisk 3D LLC
    • Zhendong HongVidyut GopalImran HashimRandall J. HiguchiTim MinvielleHieu PhamTakeshi Yamaguchi
    • H01L45/00
    • H01L45/146H01L27/2463H01L45/04H01L45/08H01L45/1233H01L45/1616
    • Embodiments of the invention generally relate to nonvolatile memory devices and methods for manufacturing such memory devices. The methods for forming improved memory devices, such as a ReRAM cells, provide optimized, atomic layer deposition (ALD) processes for forming a metal oxide film stack which contains at least one hard metal oxide film (e.g., metal is completely oxidized or substantially oxidized) and at least one soft metal oxide film (e.g., metal is less oxidized than hard metal oxide). The soft metal oxide film is less electrically resistive than the hard metal oxide film since the soft metal oxide film is less oxidized or more metallic than the hard metal oxide film. In one example, the hard metal oxide film is formed by an ALD process utilizing ozone as the oxidizing agent while the soft metal oxide film is formed by another ALD process utilizing water vapor as the oxidizing agent.
    • 本发明的实施例一般涉及用于制造这种存储器件的非易失性存储器件和方法。 用于形成改进的存储器件(例如ReRAM单元)的方法提供优化的原子层沉积(ALD)工艺,用于形成金属氧化物膜堆叠,其包含至少一个硬金属氧化物膜(例如,金属被完全氧化或基本上被氧化 )和至少一种软金属氧化物膜(例如,金属比硬金属氧化物氧化较少)。 由于软金属氧化物膜比硬金属氧化物膜氧化得更少或更金属,所以软金属氧化物膜的电阻小于硬金属氧化物膜。 在一个实例中,通过利用臭氧作为氧化剂的ALD工艺形成硬质金属氧化物膜,而通过利用水蒸汽作为氧化剂的另一ALD工艺形成软金属氧化物膜。