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    • 2. 发明授权
    • Electrode materials with improved hydrogen degradation resistance
    • 具有改善耐氢降解性的电极材料
    • US06833572B2
    • 2004-12-21
    • US10229603
    • 2002-08-27
    • Fengyan ZhangTingkai LiHong YingYoshi OnoSheng Teng Hsu
    • Fengyan ZhangTingkai LiHong YingYoshi OnoSheng Teng Hsu
    • H01L2976
    • H01L28/75H01L21/31604H01L21/31683H01L28/55
    • An electrode for use in a ferroelectric device includes a bottom electrode; a ferroelectric layer; and a top electrode formed on the ferroelectric layer and formed of a combination of metals, including a first metal take from the group of metals consisting of platinum and iridium, and a second metal taken from the group of metals consisting of aluminum and titanium; wherein the top electrode acts as a passivation layer and wherein the top electrode remains conductive following high temperature annealing in a hydrogen atmosphere. A method of forming a hydrogen-resistant electrode in a ferroelectric device includes forming a bottom electrode; forming a ferroelectric layer on the bottom electrode; depositing a top electrode on the ferroelectric layer; including depositing, simultaneously, a first metal taken from the group of metals consisting of platinum and iridium; and a second metal taken from the group of metals consisting of aluminum and titanium; and forming a passivation layer by annealing the structure in an oxygen atmosphere to form an oxide passivation layer on the top electrode.
    • 用于铁电体器件的电极包括底部电极; 铁电层 以及形成在强电介质层上并由金属组合形成的顶部电极,其包括从由铂和铱组成的金属组中的第一金属取得的金属和从由铝和钛组成的金属组中的第二金属; 其中所述顶部电极用作钝化层,并且其中所述顶部电极在氢气氛中的高温退火之后保持导电。 在铁电体器件中形成耐氢电极的方法包括形成底电极; 在底部电极上形成铁电层; 在铁电层上沉积顶部电极; 包括同时从由铂和铱组成的金属组中取出的第一金属; 和从由铝和钛组成的金属组中获取的第二金属; 以及通过在氧气氛中对所述结构退火以在所述顶部电极上形成氧化物钝化层来形成钝化层。
    • 5. 发明授权
    • Ferroelectric resistor non-volatile memory array
    • 铁电电阻非易失性存储器阵列
    • US06819583B2
    • 2004-11-16
    • US10345726
    • 2003-01-15
    • Sheng Teng HsuTingkai LiFengyan Zhang
    • Sheng Teng HsuTingkai LiFengyan Zhang
    • G11C1122
    • G11C11/22
    • A ferroelectric thin film resistor memory array is formed on a substrate and includes plural memory cells arranged in an array of rows and columns; wherein each memory cell includes: a FE resistor having a pair of terminals, and a transistor associated with each resistor, wherein each transistor has a gate, a drain and a source, and wherein the drain of each transistor is electrically connected to one terminal of its associated resistor; a word line connected to the gate of each transistor in a row; a programming line connected to each memory cell in a column; and a bit line connected to each memory cell in a column.
    • 铁基薄膜电阻存储阵列形成在基板上,并且包括以行和列为阵列排列的多个存储单元; 其中每个存储器单元包括:具有一对端子的FE电阻器和与每个电阻器相关联的晶体管,其中每个晶体管具有栅极,漏极和源极,并且其中每个晶体管的漏极电连接到 其相关电阻器; 连接到每个晶体管的栅极的字线; 连接到列中的每个存储单元的编程线; 以及连接到列中每个存储单元的位线。
    • 6. 发明授权
    • Deposition method for lead germanate ferroelectric structure with multi-layered electrode
    • 具有多层电极的锗酸铅铁电结构沉积方法
    • US06759250B2
    • 2004-07-06
    • US10196503
    • 2002-07-15
    • Fengyan ZhangTingkai LiSheng Teng Hsu
    • Fengyan ZhangTingkai LiSheng Teng Hsu
    • H01L2100
    • H01L28/56H01L21/31604H01L21/31691H01L28/75
    • The ferroelectric structure including a Pt/Ir layered electrode used in conjunction with a lead germanate (Pb5Ge3O11) thin film is provided. The electrode exhibits good adhesion to the substrate, and barrier properties resistant to oxygen and lead. Ferroelectric properties are improved, without detriment to the leakage current, by using a thin IrO2 layer formed in situ, during the MOCVD lead germanate (Pb5Ge3O11) thin film process. By using a Pt/Ir electrode, a relatively low MOCVD processing temperature is required to achieve c-axis oriented lead germanate (Pb5Ge3O11) thin film. The temperature range of MOCVD c-axis oriented lead germanate (Pb5Ge3O11) thin film on top of Pt/Ir is 400-500° C. Further, a relatively large nucleation density is obtained, as compared to using single-layer iridium electrode. Therefore, the lead germanate (Pb5Ge3O11) thin film has a smooth surface, a homogeneous microstructure, and homogeneous ferroelectric properties. A method of forming the above-mentioned multi-layered electrode ferroelectric structure is also provided.
    • 提供了包括与锗酸铅(Pb5Ge3O11)薄膜结合使用的Pt / Ir层叠电极的铁电体结构。 该电极对基材表现出良好的粘合性,并且对氧和铅具有阻挡性能。 在MOCVD锗酸铅(Pb5Ge3O11)薄膜工艺中,通过使用在原位形成的薄的IrO 2层,铁电性能得到改善,而不损害漏电流。 通过使用Pt / Ir电极,需要相对低的MOCVD处理温度来实现c轴取向的锗酸铅(Pb5Ge3O11)薄膜。 Pt / Ir顶部的MOCVD c轴取向锗酸铅(Pb5Ge3O11)薄膜的温度范围为400-500℃。与使用单层铱电极相比,获得了较大的成核密度。 因此,锗酸铅(Pb5Ge3O11)薄膜表面光滑,微观组织均匀,铁电性能均匀。 还提供了形成上述多层电极铁电体结构体的方法。