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公开(公告)号:US07364924B2
公开(公告)日:2008-04-29
申请号:US11061946
申请日:2005-02-17
IPC分类号: H01L21/00
CPC分类号: H05B33/145
摘要: An electroluminescence (EL) device and a method are provided for fabricating said device with a nanotip electrode. The method comprises: forming a bottom electrode with nanotips; forming a Si phosphor layer adjacent the nanotips; and, forming a transparent top electrode. The Si phosphor layer is interposed between the bottom and top electrodes. The nanotips may have a tip base size of about 50 nanometers, or less, a tip height in the range of 5 to 50 nm, and a nanotip density of greater than 100 nanotips per square micrometer. Typically, the nanotips are formed from iridium oxide (IrOx) nanotips. A MOCVD process forms the Ir bottom electrode. The IrOx nanotips are grown from the Ir. In one aspect, the Si phosphor layer is a SRSO layer. In response to an SRSO annealing step, nanocrystalline SRSO is formed with nanocrystals having a size in the range of 1 to 10 nm.
摘要翻译: 提供了一种电致发光(EL)器件和用于制造具有纳米尖端电极的所述器件的方法。 该方法包括:形成具有纳米尖端的底部电极; 在所述纳米尖端附近形成Si磷光体层; 并形成透明的顶部电极。 Si荧光体层介于底部和顶部电极之间。 纳米尖端可以具有约50纳米或更小的尖端基部尺寸,5至50nm范围内的尖端高度,以及每平方毫米大于100纳米尖端的纳米密度密度。 通常,纳米尖端由氧化铱(IrOx)纳米尖端形成。 MOCVD工艺形成Ir底部电极。 IrOx纳米尖嘴从Ir生长。 在一个方面,Si磷光体层是SRSO层。 响应于SRSO退火步骤,形成具有1至10nm范围内的尺寸的纳米晶体的纳米晶SRSO。
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公开(公告)号:US07208372B2
公开(公告)日:2007-04-24
申请号:US11039544
申请日:2005-01-19
IPC分类号: H01L21/06 , H01L21/461
CPC分类号: H01L27/101 , H01L45/04 , H01L45/1233 , H01L45/1273 , H01L45/147 , H01L45/16 , H01L45/1675
摘要: A non-volatile memory resistor cell with a nanotip electrode, and corresponding fabrication method are provided. The method comprises: forming a first electrode with nanotips; forming a memory resistor material adjacent the nanotips; and, forming a second electrode adjacent the memory resistor material, where the memory resistor material is interposed between the first and second electrodes. Typically, the nanotips are iridium oxide (IrOx) and have a tip base size of about 50 nanometers, or less, a tip height in the range of 5 to 50 nm, and a nanotip density of greater than 100 nanotips per square micrometer. In one aspect, the substrate material can be silicon, silicon oxide, silicon nitride, or a noble metal. A metalorganic chemical vapor deposition (MOCVD) process is used to deposit Ir. The IrOx nanotips are grown from the deposited Ir.
摘要翻译: 提供了具有纳米尖端电极的非易失性存储器电阻单元及相应的制造方法。 该方法包括:形成具有纳米尖端的第一电极; 在所述纳米尖端附近形成记忆电阻材料; 并且形成与所述存储电阻材料相邻的第二电极,其中所述存储电阻材料置于所述第一和第二电极之间。 通常,纳米针是氧化铱(IrOx),并且具有约50纳米或更小的尖端基底尺寸,在5至50nm范围内的尖端高度,以及每平方微米大于100纳米尖端的纳米密度密度。 一方面,衬底材料可以是硅,氧化硅,氮化硅或贵金属。 使用金属有机化学气相沉积(MOCVD)工艺沉积Ir。 IrOx纳米尖端从沉积的Ir生长。
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公开(公告)号:US07053403B1
公开(公告)日:2006-05-30
申请号:US11339876
申请日:2006-01-26
CPC分类号: H01L21/31111 , B81C1/00111 , B82Y10/00
摘要: A method is provided for patterning iridium oxide (IrOx) nanostructures. The method comprises: forming a substrate first region adjacent a second region; growing IrOx nanostructures from a continuous IrOx film overlying the first region; simultaneously growing IrOx nanostructures from a non-continuous IrOx film overlying the second region; selectively etching areas of the second region exposed by the non-continuous IrOx film; and, lifting off the IrOx nanostructures overlying the second region. Typically, the first region is formed from a first material and the second region from a second material, different than the first material. For example, the first material can be a refractory metal, or refractory metal oxide. The second material can be SiOx. The step of selectively etching areas of the second region exposed by the non-continuous IrOx film includes exposing the substrate to an etchant that is more reactive with the second material than the IrOx.
摘要翻译: 提供了用于构图氧化铱(IrOx)纳米结构的方法。 该方法包括:在第二区域附近形成衬底第一区域; 从覆盖第一区域的连续IrOx膜生长IrOx纳米结构; 同时从覆盖第二区域的非连续IrOx膜生长IrOx纳米结构; 选择性地蚀刻由非连续IrOx膜暴露的第二区域的区域; 并提升覆盖第二区域的IrOx纳米结构。 通常,第一区域由第一材料形成,第二区域由不同于第一材料的第二材料形成。 例如,第一种材料可以是难熔金属或难熔金属氧化物。 第二种材料可以是SiOx。 选择性地蚀刻由非连续IrOx膜暴露的第二区域的区域的步骤包括将衬底暴露于与IrOx比第二材料更具反应性的蚀刻剂。
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公开(公告)号:US07022621B1
公开(公告)日:2006-04-04
申请号:US11013804
申请日:2004-12-15
IPC分类号: H01L21/461
CPC分类号: H01L21/31111 , B81C1/00111 , B82Y10/00
摘要: A method is provided for patterning iridium oxide (IrOx) nanostructures. The method comprises: forming a substrate first region adjacent a second region; growing IrOx nanostructures from a continuous IrOx film overlying the first region; simultaneously growing IrOx nanostructures from a non-continuous IrOx film overlying the second region; selectively etching areas of the second region exposed by the non-continuous IrOx film; and, lifting off the IrOx nanostructures overlying the second region. Typically, the first region is formed from a first material and the second region from a second material, different than the first material. For example, the first material can be a refractory metal, or refractory metal oxide. The second material can be SiOx. The step of selectively etching areas of the second region exposed by the non-continuous IrOx film includes exposing the substrate to an etchant that is more reactive with the second material than the IrOx.
摘要翻译: 提供了用于构图氧化铱(IrOx)纳米结构的方法。 该方法包括:在第二区域附近形成衬底第一区域; 从覆盖第一区域的连续IrOx膜生长IrOx纳米结构; 同时从覆盖第二区域的非连续IrOx膜生长IrOx纳米结构; 选择性地蚀刻由非连续IrOx膜暴露的第二区域的区域; 并提升覆盖第二区域的IrOx纳米结构。 通常,第一区域由第一材料形成,第二区域由不同于第一材料的第二材料形成。 例如,第一种材料可以是难熔金属或难熔金属氧化物。 第二种材料可以是SiOx。 选择性地蚀刻由非连续IrOx膜暴露的第二区域的区域的步骤包括将衬底暴露于与IrOx比第二材料更具反应性的蚀刻剂。
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公开(公告)号:US20080191636A1
公开(公告)日:2008-08-14
申请号:US12042983
申请日:2008-03-05
CPC分类号: H05B33/145
摘要: An electroluminescence (EL) device and a method are provided for fabricating said device with a nanotip electrode. The method comprises: forming a bottom electrode with nanotips; forming a Si phosphor layer adjacent the nanotips; and, forming a transparent top electrode. The Si phosphor layer is interposed between the bottom and top electrodes. The nanotips may have a tip base size of about 50 nanometers, or less, a tip height in the range of 5 to 50 nm, and a nanotip density of greater than 100 nanotips per square micrometer. Typically, the nanotips are formed from iridium oxide (IrOx) nanotips. A MOCVD process forms the Ir bottom electrode. The IrOx nanotips are grown from the Ir. In one aspect, the Si phosphor layer is a SRSO layer. In response to an SRSO annealing step, nanocrystalline SRSO is formed with nanocrystals having a size in the range of 1 to 10 nm.
摘要翻译: 提供了一种电致发光(EL)器件和用于制造具有纳米尖端电极的所述器件的方法。 该方法包括:形成具有纳米尖端的底部电极; 在所述纳米尖端附近形成Si磷光体层; 并形成透明的顶部电极。 Si荧光体层介于底部和顶部电极之间。 纳米尖端可以具有约50纳米或更小的尖端基部尺寸,5至50nm范围内的尖端高度,以及每平方毫米大于100纳米尖端的纳米密度密度。 通常,纳米尖端由氧化铱(IrOx)纳米尖端形成。 MOCVD工艺形成Ir底部电极。 IrOx纳米尖嘴从Ir生长。 在一个方面,Si磷光体层是SRSO层。 响应于SRSO退火步骤,形成具有1至10nm范围内的尺寸的纳米晶体的纳米晶SRSO。
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公开(公告)号:US08242482B2
公开(公告)日:2012-08-14
申请号:US12042983
申请日:2008-03-05
IPC分类号: H01L31/072
CPC分类号: H05B33/145
摘要: An electroluminescence (EL) device and a method are provided for fabricating said device with a nanotip electrode. The method comprises: forming a bottom electrode with nanotips; forming a Si phosphor layer adjacent the nanotips; and, forming a transparent top electrode. The Si phosphor layer is interposed between the bottom and top electrodes. The nanotips may have a tip base size of about 50 nanometers, or less, a tip height in the range of 5 to 50 nm, and a nanotip density of greater than 100 nanotips per square micrometer. Typically, the nanotips are formed from iridium oxide (IrOx) nanotips. A MOCVD process forms the Ir bottom electrode. The IrOx nanotips are grown from the Ir. In one aspect, the Si phosphor layer is a SRSO layer. In response to an SRSO annealing step, nanocrystalline SRSO is formed with nanocrystals having a size in the range of 1 to 10 nm.
摘要翻译: 提供了一种电致发光(EL)器件和用于制造具有纳米尖端电极的所述器件的方法。 该方法包括:用纳米尖端形成底部电极; 在所述纳米尖端附近形成Si磷光体层; 并形成透明的顶部电极。 Si荧光体层介于底部和顶部电极之间。 纳米尖端可以具有约50纳米或更小的尖端基部尺寸,5至50nm范围内的尖端高度,以及每平方毫米大于100纳米尖端的纳米密度密度。 通常,纳米尖端由氧化铱(IrOx)纳米尖端形成。 MOCVD工艺形成Ir底部电极。 IrOx纳米尖嘴从Ir生长。 在一个方面,Si磷光体层是SRSO层。 响应于SRSO退火步骤,形成具有1至10nm范围内的尺寸的纳米晶体的纳米晶SRSO。
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7.发明申请Solar cell structures using porous column TiO2 films deposited by CVD 审中-公开使用通过CVD沉积的多孔柱TiO 2膜的太阳能电池结构公开(公告)号:US20080092955A1
公开(公告)日:2008-04-24
申请号:US11582197
申请日:2006-10-16
IPC分类号: H01L31/00
CPC分类号: H01G9/2031 , H01G9/2059 , H01L51/0036 , H01L51/0086 , H01L51/4226 , Y02E10/542
摘要: A method of fabricating a photovoltaic cell for use in a solar cell structure includes preparing a first substrate; preparing a TiO2 precursor; preparing a cold wall CVD chamber; placing the first substrate in the cold wall CVD chamber; forming a transparent conducting electrode on the first substrate; depositing a porous column TiO2 film on the transparent conducting electrode; depositing a photosensitive material in and on the porous column TiO2 film; forming a top electrode on the photovoltaic cell; and incorporating the photovoltaic cell into a solar cell structure. The method of the invention is suitable for forming photovoltaic cells which may be of the dye-sensitized solar cell (DSSC) type, having a liquid or solid-state electrolyte therein, or an ordered organic-inorganic heterojunction photovoltaic cell.
摘要翻译: 制造太阳能电池结构中使用的太阳能电池的方法包括制备第一基板; 制备TiO 2前体; 准备冷壁CVD室; 将第一衬底放置在冷壁CVD室中; 在所述第一基板上形成透明导电电极; 在透明导电电极上沉积多孔柱TiO 2膜; 在多孔色谱柱TiO 2膜上沉积感光材料; 在所述光伏电池上形成顶部电极; 并将光伏电池并入太阳能电池结构中。 本发明的方法适用于形成可能是其中具有液体或固态电解质的染料敏化太阳能电池(DSSC)型或有序无机异质结光伏电池的光伏电池。
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公开(公告)号:US07098144B2
公开(公告)日:2006-08-29
申请号:US10971280
申请日:2004-10-21
IPC分类号: H01L21/302
CPC分类号: B82Y10/00 , B82Y30/00 , C30B25/00 , C30B29/16 , C30B29/605 , Y10S977/811 , Y10S977/84
摘要: A method is provided for forming iridium oxide (IrOx) nanotubes. The method comprises: providing a substrate; introducing a (methylcyclopentadienyl)(1,5-cyclooctadiene)iridium(I) precursor; introducing oxygen as a precursor reaction gas; establishing a final pressure in the range of 1 to 50 Torr; establishing a substrate, or chamber temperature in the range of 200 to 500 degrees C.; and using a metalorganic chemical vapor deposition (MOCVD) process, growing IrOx hollow nanotubes from the substrate surface. Typically, the (methylcyclopentadienyl)(1,5-cyclooctadiene)iridium(I) precursor is initially heated in an ampule to a first temperature in the range of 60 to 90 degrees C., and the first temperature is maintained in the transport line introducing the precursor. The precursor may be mixed with an inert carrier gas such as Ar, or the oxygen precursor reaction gas may be used as the carrier.
摘要翻译: 提供了形成氧化铱(IrOx)纳米管的方法。 该方法包括:提供衬底; 引入(甲基环戊二烯基)(1,5-环辛二烯)铱(I)前体; 引入氧气作为前体反应气体; 确定1至50乇范围内的最终压力; 建立基板,或室温在200至500摄氏度的范围内。 并使用金属有机化学气相沉积(MOCVD)工艺,从衬底表面生长IrOx中空纳米管。 通常,(甲基环戊二烯基)(1,5-环辛二烯)铱(I)前体最初在安瓿中加热至60至90℃的第一温度,第一温度保持在输送线 的前身。 前体可以与惰性载气如Ar混合,也可以使用氧前体反应气体作为载体。
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公开(公告)号:US07438759B2
公开(公告)日:2008-10-21
申请号:US11264113
申请日:2005-11-01
IPC分类号: C30B1/02
CPC分类号: B81C1/00182 , B81B2201/0214 , Y10S977/712 , Y10S977/762
摘要: An ambient environment nanowire sensor and corresponding fabrication method have been provided. The method includes: forming a substrate such as Silicon (Si) or glass; growing nanowires; depositing an insulator layer overlying the nanowires; etching to expose tips of the nanowires; forming a patterned metal electrode, with edges, overlying the tips of the nanowires; and, etching to expose the nanowires underlying the electrode edges. The nanowires can be a material such as IrO2, TiO2, InO, ZnO, SnO2, Sb2O3, or In2O3, to mane just a few examples. The insulator layer can be a spin-on glass (SOG) or low-k dielectric. In one aspect, the resultant structure includes exposed nanowires grown from the doped substrate regions and an insulator core with embedded nanowires. In a different aspect, the method forms a growth promotion layer overlying the substrate. The resultant structure includes exposed nanowires grown from the selectively formed growth promotion layer.
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公开(公告)号:US07255745B2
公开(公告)日:2007-08-14
申请号:US10971330
申请日:2004-10-21
IPC分类号: C30B29/62
CPC分类号: H01L24/48 , C30B25/005 , C30B29/16 , C30B29/62 , H01L24/45 , H01L24/49 , H01L2224/05644 , H01L2224/05655 , H01L2224/05669 , H01L2224/43827 , H01L2224/45015 , H01L2224/45144 , H01L2224/45155 , H01L2224/45157 , H01L2224/45166 , H01L2224/45169 , H01L2224/45178 , H01L2224/45181 , H01L2224/45565 , H01L2224/45599 , H01L2224/45688 , H01L2224/48011 , H01L2224/48091 , H01L2224/4813 , H01L2224/48463 , H01L2224/4847 , H01L2224/48599 , H01L2224/49111 , H01L2224/49175 , H01L2924/00011 , H01L2924/01005 , H01L2924/01007 , H01L2924/01013 , H01L2924/01014 , H01L2924/01018 , H01L2924/01022 , H01L2924/01027 , H01L2924/01028 , H01L2924/01032 , H01L2924/01033 , H01L2924/0105 , H01L2924/01073 , H01L2924/01077 , H01L2924/01078 , H01L2924/01079 , H01L2924/04941 , H01L2924/04953 , H01L2924/10253 , H01L2924/10271 , H01L2924/1033 , H01L2924/10335 , H01L2924/14 , H01L2924/20751 , Y10S977/762 , Y10S977/763 , Y10S977/811 , H01L2924/00014 , H01L2924/20651 , H01L2924/00 , H01L2924/01006
摘要: Iridium oxide (IrOx) nanowires and a method forming the nanowires are provided. The method comprises: providing a growth promotion film with non-continuous surfaces, having a thickness in the range of 0.5 to 5 nanometers (nm), and made from a material such as Ti, Co, Ni, Au, Ta, polycrystalline silicon (poly-Si), SiGe, Pt, Ir, TiN, or TaN; establishing a substrate temperature in the range of 200 to 600 degrees C.; introducing oxygen as a precursor reaction gas; introducing a (methylcyclopentadienyl)(1,5-cyclooctadiene)iridium(I) precursor; using a metalorganic chemical vapor deposition (MOCVD) process, growing IrOx nanowires from the growth promotion film surfaces. The IrOx nanowires have a diameter in the range of 100 to 1000 Å, a length in the range of 1000 Å to 2 microns, an aspect ratio (length to width) of greater than 50:1. Further, the nanowires include single-crystal nanowire cores covered with an amorphous layer having a thickness of less than 10 Å.
摘要翻译: 提供氧化铱(IrOx)纳米线和形成纳米线的方法。 该方法包括:提供具有0.5至5纳米(nm)范围内的厚度的非连续表面的生长促进膜,并由诸如Ti,Co,Ni,Au,Ta,多晶硅 多晶硅),SiGe,Pt,Ir,TiN或TaN; 建立200〜600℃的基板温度。 引入氧气作为前体反应气体; 引入(甲基环戊二烯基)(1,5-环辛二烯)铱(I)前体; 使用金属有机化学气相沉积(MOCVD)工艺,从生长促进膜表面生长IrOx纳米线。 IrOx纳米线的直径在100至1000埃的范围内,长度在1000埃至2微米之间,纵横比(长宽比)大于50:1。 此外,纳米线包括覆盖有厚度小于Å的非晶层的单晶纳米线芯。
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