公开(公告)号：US07585788B2

公开(公告)日：2009-09-08

申请号：US11224549

申请日：2005-09-12

申请人： Wei-Wei Zhuang ,  Yoshi Ono ,  Sheng Teng Hsu ,  Tingkai Li

发明人： Wei-Wei Zhuang ,  Yoshi Ono ,  Sheng Teng Hsu ,  Tingkai Li

IPC分类号： H01L21/31

CPC分类号： H01L21/02156 ,  H01L21/02282 ,  H01L21/316

摘要： A method is provided for forming a rare earth element-doped silicon oxide (SiO2) precursor with nanocrystalline (nc) Si particles. In one aspect the method comprises: mixing Si particles into a first organic solvent, forming a first solution with a first boiling point; filtering the first solution to remove large Si particles; mixing a second organic solvent having a second boiling point, higher than the first boiling point, to the filtered first solution; and, fractionally distilling, forming a second solution of nc Si particles. The Si particles are formed by immersing a Si wafer into a third solution including hydrofluoric (HF) acid and alcohol, applying an electric bias, and forming a porous Si layer overlying the Si wafer. Then, the Si particles are mixed into the organic solvent by depositing the Si wafer into the first organic solvent, and ultrasonically removing the porous Si layer from the Si wafer.

摘要翻译： 提供了一种用于形成具有纳米晶体（nc）Si颗粒的稀土元素掺杂的氧化硅（SiO 2）前体的方法。 一方面，该方法包括：将Si颗粒混合到第一有机溶剂中，形成具有第一沸点的第一溶液; 过滤第一溶液以除去大的Si颗粒; 将具有高于第一沸​​点的第二沸点的第二有机溶剂与过滤的第一溶液混合; 并分馏，形成nc Si颗粒的第二溶液。 通过将Si晶片浸入包括氢氟酸（HF）酸和醇的第三溶液中，施加电偏压并形成覆盖Si晶片的多孔Si层，形成Si颗粒。 然后，通过将Si晶片沉积到第一有机溶剂中，将Si颗粒混入有机溶剂中，并从Si晶片超声波除去多孔Si层。

公开(公告)号：US20070238239A1

公开(公告)日：2007-10-11

申请号：US11224549

申请日：2005-09-12

申请人： Wei-Wei Zhuang ,  Yoshi Ono ,  Sheng Teng-Hsu ,  Tingkai Li

发明人： Wei-Wei Zhuang ,  Yoshi Ono ,  Sheng Teng-Hsu ,  Tingkai Li

IPC分类号： H01L21/8238

CPC分类号： H01L21/02156 ,  H01L21/02282 ,  H01L21/316

摘要： A method is provided for forming a rare earth element-doped silicon oxide (SiO2) precursor with nanocrystalline (nc) Si particles. In one aspect the method comprises: mixing Si particles into a first organic solvent, forming a first solution with a first boiling point; filtering the first solution to remove large Si particles; mixing a second organic solvent having a second boiling point, higher than the first boiling point, to the filtered first solution; and, fractionally distilling, forming a second solution of nc Si particles. The Si particles are formed by immersing a Si wafer into a third solution including hydrofluoric (HF) acid and alcohol, applying an electric bias, and forming a porous Si layer overlying the Si wafer. Then, the Si particles are mixed into the organic solvent by depositing the Si wafer into the first organic solvent, and ultrasonically removing the porous Si layer from the Si wafer.

摘要翻译： 提供了用纳米晶体（nc）Si颗粒形成稀土元素掺杂的氧化硅（SiO 2）前体的方法。 一方面，该方法包括：将Si颗粒混合到第一有机溶剂中，形成具有第一沸点的第一溶液; 过滤第一溶液以除去大的Si颗粒; 将具有高于第一沸​​点的第二沸点的第二有机溶剂与过滤的第一溶液混合; 并分馏，形成nc Si颗粒的第二溶液。 通过将Si晶片浸入包括氢氟酸（HF）酸和醇的第三溶液中，施加电偏压并形成覆盖Si晶片的多孔Si层，形成Si颗粒。 然后，通过将Si晶片沉积到第一有机溶剂中，将Si颗粒混入有机溶剂中，并从Si晶片超声波除去多孔Si层。

公开(公告)号：US07811837B2

公开(公告)日：2010-10-12

申请号：US11582275

申请日：2006-10-16

申请人： Tingkai Li ,  Wei Gao ,  Yoshi Ono ,  Sheng Teng Hsu

发明人： Tingkai Li ,  Wei Gao ,  Yoshi Ono ,  Sheng Teng Hsu

IPC分类号： H01L29/00

CPC分类号： H01L27/15 ,  H01L33/0004 ,  H01L33/343

摘要： A method of fabricating an electroluminescent device includes, on a prepared substrate, depositing a rare earth-doped silicon-rich layer on gate oxide layer as a light emitting layer; and annealing and oxidizing the structure to repair any damage caused to the rare earth-doped silicon-rich layer; and incorporating the electroluminescent device into a CMOS IC. An electroluminescent device fabricated according to the method of the invention includes a substrate, a rare earth-doped silicon-rich layer formed on the gate oxide layer for emitting a light of a pre-determined wavelength; a top electrode formed on the rare earth-doped silicon-rich layer; and associated CMOS IC structures fabricated thereabout.

摘要翻译： 一种制造电致发光器件的方法包括：在制备的衬底上，在作为发光层的栅极氧化物层上沉积稀土掺杂的富硅层; 并对该结构进行退火和氧化以修复对稀土掺杂的富硅层造成的任何损伤; 并将电致发光器件并入CMOS IC。 根据本发明的方法制造的电致发光器件包括：衬底，形成在栅极氧化物层上的用于发射预定波长的光的稀土掺杂富硅层; 在稀土掺杂的富硅层上形成的顶部电极; 并在其附近制造相关的CMOS IC结构。

公开(公告)号：US06590243B2

公开(公告)日：2003-07-08

申请号：US09301434

申请日：1999-04-28

申请人： Tingkai Li ,  Fengyan Zhang ,  Yoshi Ono ,  Sheng Teng Hsu

发明人： Tingkai Li ,  Fengyan Zhang ,  Yoshi Ono ,  Sheng Teng Hsu

IPC分类号： H01L2976

CPC分类号： H01L21/02197 ,  C23C16/40 ,  H01L21/02271 ,  H01L21/31604 ,  H01L21/31691

摘要： A Pb3GeO5 phase PGO thin film is provided. This film has ferroelastic properties that make it ideal for many microelectromechanical applications or as decoupling capacitors in high speed multichip modules. This PGO film is uniquely formed in a MOCVD process that permits a thin film, less than 1 mm, of material to be deposited. The process mixes Pd and germanium in a solvent. The solution is heated to form a precursor vapor which is decomposed. The method provides deposition temperatures and pressures. The as-deposited film is also annealed to enhanced the film's ferroelastic characteristics. A ferroelastic capacitor made from the present invention PGO film is also provided.

公开(公告)号：US20080164569A1

公开(公告)日：2008-07-10

申请号：US11582275

申请日：2006-10-16

申请人： Tingkai Li ,  Wei Gao ,  Yoshi Ono ,  Sheng Teng Hsu

发明人： Tingkai Li ,  Wei Gao ,  Yoshi Ono ,  Sheng Teng Hsu

IPC分类号： H01L29/00

CPC分类号： H01L27/15 ,  H01L33/0004 ,  H01L33/343

摘要： A method of fabricating an electroluminescent device includes, on a prepared substrate, depositing a rare earth-doped silicon-rich layer on gate oxide layer as a light emitting layer; and annealing and oxidizing the structure to repair any damage caused to the rare earth-doped silicon-rich layer; and incorporating the electroluminescent device into a CMOS IC. An electroluminescent device fabricated according to the method of the invention includes a substrate, a rare earth-doped silicon-rich layer formed on the gate oxide layer for emitting a light of a pre-determined wavelength; a top electrode formed on the rare earth-doped silicon-rich layer; and associated CMOS IC structures fabricated thereabout.

摘要翻译： 一种制造电致发光器件的方法包括：在制备的衬底上，在作为发光层的栅极氧化物层上沉积稀土掺杂的富硅层; 并对该结构进行退火和氧化以修复对稀土掺杂的富硅层造成的任何损伤; 并将电致发光器件并入CMOS IC。 根据本发明的方法制造的电致发光器件包括：衬底，形成在栅极氧化物层上的用于发射预定波长的光的稀土掺杂富硅层; 在稀土掺杂的富硅层上形成的顶部电极; 并在其附近制造相关的CMOS IC结构。

公开(公告)号：US06833572B2

公开(公告)日：2004-12-21

申请号：US10229603

申请日：2002-08-27

申请人： Fengyan Zhang ,  Tingkai Li ,  Hong Ying ,  Yoshi Ono ,  Sheng Teng Hsu

发明人： Fengyan Zhang ,  Tingkai Li ,  Hong Ying ,  Yoshi Ono ,  Sheng Teng Hsu

IPC分类号： H01L2976

CPC分类号： H01L28/75 ,  H01L21/31604 ,  H01L21/31683 ,  H01L28/55

摘要： 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.

摘要翻译： 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。

公开(公告)号：US06410346B1

公开(公告)日：2002-06-25

申请号：US10010186

申请日：2001-12-06

申请人： Tingkai Li ,  Fengyan Zhang ,  Yoshi Ono ,  Sheng Teng Hsu

发明人： Tingkai Li ,  Fengyan Zhang ,  Yoshi Ono ,  Sheng Teng Hsu

IPC分类号： H01L2100

CPC分类号： H01L21/02197 ,  C23C16/40 ,  H01L21/02271 ,  H01L21/31604 ,  H01L21/31691

摘要： A Pb3GeO5 phase PGO thin film is provided. This film has ferroelastic properties that make it ideal for many microelectromechanical applications or as decoupling capacitors in high speed multichip modules. This PGO film is uniquely formed in a MOCVD process that permits a thin film, less than 1 mm, of material to be deposited. The process mixes Pd and germanium in a solvent. The solution is heated to form a precursor vapor which is decomposed. The method provides deposition temperatures and pressures. The as-deposited film is also annealed to enhanced the film's ferroelastic characteristics. A ferroelastic capacitor made from the present invention PGO film is also provided.

摘要翻译： 提供Pb3GeO5相PGO薄膜。 该薄膜具有铁弹性，使其成为许多微机电应用或高速多芯片模块中的去耦电容器的理想选择。 该PGO膜在MOCVD工艺中唯一形成，其允许沉积小于1mm的薄膜。 该方法在溶剂中混合Pd和锗。 将溶液加热以形成分解的前体蒸汽。 该方法提供沉积温度和压力。 沉积的膜也被退火以增强膜的铁弹性特征。 还提供了由本发明PGO膜制成的铁弹性电容器。

公开(公告)号：US06495378B2

公开(公告)日：2002-12-17

申请号：US09814273

申请日：2001-03-21

申请人： Tingkai Li ,  Fengyan Zhang ,  Yoshi Ono ,  Sheng Teng Hsu

发明人： Tingkai Li ,  Fengyan Zhang ,  Yoshi Ono ,  Sheng Teng Hsu

IPC分类号： H01L2100

CPC分类号： H01L21/02197 ,  C23C16/40 ,  H01L21/02271 ,  H01L21/31604 ,  H01L21/31691

摘要： A Pb3GeO5 phase PGO thin film is provided. This film has ferroelastic properties that make it ideal for many microelectromechanical applications or as decoupling capacitors in high speed multichip modules. This PGO film is uniquely formed in a MOCVD process that permits a thin film, less than 1 mm, of material to be deposited. The process mixes Pd and germanium in a solvent. The solution is heated to form a precursor vapor which is decomposed. The method provides deposition temperatures and pressures. The as-deposited film is also annealed to enhanced the film's ferroelastic characteristics. A ferroelastic capacitor made from the present invention PGO film is also provided.

摘要翻译： 提供Pb3GeO5相PGO薄膜。 该薄膜具有铁弹性，使其成为许多微机电应用或高速多芯片模块中的去耦电容器的理想选择。 该PGO膜在MOCVD工艺中唯一形成，其允许沉积小于1mm的薄膜。 该方法将Pd和锗在溶剂中混合。 将溶液加热以形成分解的前体蒸汽。 该方法提供沉积温度和压力。 沉积的膜也被退火以增强膜的铁弹性特征。 还提供了由本发明PGO膜制成的铁弹性电容器。

公开(公告)号：US06190925B1

公开(公告)日：2001-02-20

申请号：US09302272

申请日：1999-04-28

申请人： Tingkai Li ,  Fengyan Zhang ,  Yoshi Ono ,  Sheng Teng Hsu

发明人： Tingkai Li ,  Fengyan Zhang ,  Yoshi Ono ,  Sheng Teng Hsu

IPC分类号： H01L2100

CPC分类号： H01L21/31604 ,  C23C16/40 ,  H01L21/31691 ,  Y10S438/933

摘要： The present invention provides a substantially single crystal PGO film with optimal the ferroelectric properties. The PGO film and adjacent electrodes are epitaxially grown to minimize mismatch between the structures. MOCVD deposition methods and RTP annealing procedures permit a PGO film to be epitaxially grown in commercial fabrication processes. These epitaxial ferroelectric have application in FeRAM memory devices. The present invention deposition method epitaxially grows ferroelectric Pb5Ge3O11 thin films along with c-axis orientation.

摘要翻译： 本发明提供了具有最佳铁电性能的基本单晶PGO膜。 PGO膜和相邻电极被外延生长以最小化结构之间的失配。 MOCVD沉积方法和RTP退火程序允许PGO膜在商业制造工艺中外延生长。 这些外延铁电体已经应用于FeRAM存储器件中。 本发明沉积方法外延生长铁电Pb5Ge3O11薄膜以及c轴取向。

公开(公告)号：US07297642B2

公开(公告)日：2007-11-20

申请号：US11334015

申请日：2006-01-18

申请人： Wei Gao ,  Tingkai Li ,  Robert A. Barrowcliff ,  Yoshi Ono ,  Sheng Teng Hsu

发明人： Wei Gao ,  Tingkai Li ,  Robert A. Barrowcliff ,  Yoshi Ono ,  Sheng Teng Hsu

IPC分类号： H01L21/31

CPC分类号： H05B33/145 ,  H01L21/3115 ,  H01L31/03046 ,  Y02E10/544

摘要： A method is provided for forming a rare earth (RE) element-doped silicon (Si) oxide film with nanocrystalline (nc) Si particles. The method comprises: providing a first target of Si, embedded with a first rare earth element; providing a second target of Si; co-sputtering the first and second targets; forming a Si-rich Si oxide (SRSO) film on a substrate, doped with the first rare earth element; and, annealing the rare earth element-doped SRSO film. The first target is doped with a rare earth element such as erbium (Er), ytterbium (Yb), cerium (Ce), praseodymium (Pr), or terbium (Tb). The sputtering power is in the range of about 75 to 300 watts (W). Different sputtering powers are applied to the two targets. Also, deposition can be controlled by varying the effective areas of the two targets. For example, one of the targets can be partially covered.

摘要翻译： 提供了一种用于形成具有纳米晶体（nc）Si颗粒的稀土（RE）元素掺杂硅（Si）氧化物膜的方法。 该方法包括：提供嵌入有第一稀土元素的Si的第一靶; 提供Si的第二个目标; 共溅射第一和第二个目标; 在掺杂有第一稀土元素的衬底上形成富Si氧化硅（SRSO）膜; 并对稀土元素掺杂的SRSO膜退火。 第一靶用铒（Er），镱（Yb），铈（Ce），镨（Pr）或铽（Tb）等稀土元素掺杂。 溅射功率在约75至300瓦（W）的范围内。 不同的溅射功率被应用于两个目标。 此外，可以通过改变两个目标的有效面积来控制沉积。 例如，其中一个目标可以被部分覆盖。