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1. 发明授权

US07326954B2 Scaffold-organized metal, alloy, semiconductor and/or magnetic clusters and electronic devices made using such clusters 失效
标题翻译：支架组织的金属，合金，半导体和/或磁簇和使用这种簇制成的电子器件
公开(公告)号：US07326954B2
公开(公告)日：2008-02-05
申请号：US10816603
申请日：2004-04-02
申请人： Martin N. Wybourne , James E. Hutchison
发明人： Martin N. Wybourne , James E. Hutchison
IPC分类号： H01L51/05
CPC分类号： B82Y30/00 , B05D1/185 , B05D7/24 , B82B3/00 , B82Y25/00 , B82Y40/00 , C07B2200/11 , C07H21/00 , C40B40/00 , H01F1/0063 , H01L49/00 , Y10S977/705 , Y10S977/779 , Y10S977/784 , Y10T428/256
摘要： A method for forming arrays of metal, alloy, semiconductor or magnetic clusters is described. The method comprises placing a scaffold on a substrate, the scaffold comprising molecules selected from the group consisting of polynucleotides, polypeptides, and perhaps combinations thereof. Polypeptides capable of forming α helices are currently preferred for forming scaffolds. Arrays are then formed by contacting the scaffold with plural, monodispersed ligand-stabilized clusters. Each cluster, prior to contacting the scaffold, includes plural exchangeable ligands bonded thereto. If the clusters are metal clusters, then the metal preferably is selected from the group consisting of Ag, Au, Pt, Pd and mixtures thereof. A currently preferred metal is gold, and a currently preferred metal cluster is Au55 having a radius of from about 0.7 to about 1 nm. Compositions also are described, one use for which is in the formation of cluster arrays. One embodiment of the composition comprises plural monodispersed, ligand-stabilized clusters coupled to a polypeptide.
摘要翻译：描述了形成金属，合金，半导体或磁性簇的阵列的方法。该方法包括将支架置于底物上，所述支架包含选自多核苷酸，多肽及其组合的分子。能够形成α螺旋的多肽目前优选用于形成支架。然后通过使支架与多个单分散的配体稳定的簇接触而形成阵列。每个簇在接触支架之前包括与其结合的多个可交换配体。如果簇是金属簇，则金属优选选自Ag，Au，Pt，Pd及其混合物。目前优选的金属是金，并且当前优选的金属簇是半径为约0.7至约1nm的Au 55。还描述了组合物，其中一种用于形成簇阵列。组合物的一个实施方案包括与多肽偶联的多个单分散的配体稳定的簇。

2. 发明授权

US07626192B2 Scaffold-organized clusters and electronic devices made using such clusters 失效
标题翻译：使用这种集群制作的脚手架组织和电子设备
公开(公告)号：US07626192B2
公开(公告)日：2009-12-01
申请号：US11120352
申请日：2005-05-02
申请人： James E. Hutchison , Martin N. Wybourne , Scott M. Reed
发明人： James E. Hutchison , Martin N. Wybourne , Scott M. Reed
IPC分类号： G01N33/553
CPC分类号： H01L51/0595 , B82Y10/00 , Y10S977/773 , Y10S977/81 , Y10S977/83
摘要： A method for forming arrays of metal, alloy, semiconductor or magnetic nanoparticles is described. An embodiment of the method comprises placing a scaffold on a substrate, the scaffold comprising, for example, polynucleotides and/or polypeptides, and coupling the nanoparticles to the scaffold. Methods of producing arrays in predetermined patterns and electronic devices that incorporate such patterned arrays are also described.
摘要翻译：描述了形成金属，合金，半导体或磁性纳米颗粒阵列的方法。该方法的一个实施方案包括将支架置于底物上，所述支架包含例如多核苷酸和/或多肽，并将纳米颗粒偶联至支架。还描述了以预定图案制造阵列的方法和结合了这种图案化阵列的电子装置。

3. 发明申请

US20090155573A1 SCAFFOLD-ORGANIZED METAL, ALLOY, SEMICONDUCTOR AND/OR MAGNETIC CLUSTERS AND ELECTRONIC DEVICES MADE USING SUCH CLUSTERS 审中-公开
标题翻译：合金，合金，半导体和/或磁性集群和使用这种集群的电子设备
公开(公告)号：US20090155573A1
公开(公告)日：2009-06-18
申请号：US11960528
申请日：2007-12-19
申请人： Martin N. Wybourne , James E. Hutchison
发明人： Martin N. Wybourne , James E. Hutchison
IPC分类号： B32B5/16
CPC分类号： B82Y30/00 , B05D1/185 , B05D7/24 , B82B3/00 , B82Y25/00 , B82Y40/00 , C07B2200/11 , C07H21/00 , C40B40/00 , H01F1/0063 , H01L49/00 , Y10S977/705 , Y10S977/779 , Y10S977/784 , Y10T428/256
摘要： A method for forming arrays of metal, alloy, semiconductor or magnetic clusters is described. The method comprises placing a scaffold on a substrate, the scaffold comprising molecules selected from the group consisting of polynucleotides, polypeptides, and perhaps combinations thereof. Polypeptides capable of forming α helices are currently preferred for forming scaffolds. Arrays are then formed by contacting the scaffold with plural, monodispersed ligand-stabilized clusters. Each cluster, prior to contacting the scaffold, includes plural exchangeable ligands bonded thereto. If the clusters are metal clusters, then the metal preferably is selected from the group consisting of Ag, Au, Pt, Pd and mixtures thereof. A currently preferred metal is gold, and a currently preferred metal cluster is Au55 having a radius of from about 0.7 to about 1 nm. Compositions also are described, one use for which is in the formation of cluster arrays. One embodiment of the composition comprises plural monodispersed, ligand-stabilized clusters coupled to a polypeptide.
摘要翻译：描述了形成金属，合金，半导体或磁性簇的阵列的方法。该方法包括将支架置于底物上，所述支架包含选自多核苷酸，多肽及其组合的分子。能够形成α螺旋的多肽目前优选用于形成支架。然后通过使支架与多个单分散的配体稳定的簇接触而形成阵列。每个簇在接触支架之前包括与其结合的多个可交换配体。如果簇是金属簇，则金属优选选自Ag，Au，Pt，Pd及其混合物。目前优选的金属是金，并且当前优选的金属簇是具有约0.7至约1nm的半径的Au55。还描述了组合物，其中一种用于形成簇阵列。组合物的一个实施方案包括与多肽偶联的多个单分散的配体稳定的簇。

4. 发明申请

US20090047753A1 Scaffold-organized clusters and electronic devices made using such clusters 审中-公开
公开(公告)号：US20090047753A1
公开(公告)日：2009-02-19
申请号：US12220580
申请日：2008-07-25
申请人： James E. Hutchison , Scott M. Reed , Martin N. Wybourne
发明人： James E. Hutchison , Scott M. Reed , Martin N. Wybourne
IPC分类号： H01L51/40
CPC分类号： B82Y30/00 , B82Y10/00 , G01N33/54353 , H01L51/0093 , H01L51/0595
摘要： A method for forming arrays of metal, alloy, semiconductor or magnetic clusters is described. The method comprises placing a scaffold on a substrate, the scaffold comprising, for example, polynucleotides and/or polypeptides, and coupling the clusters to the scaffold. Methods of producing arrays in predetermined patterns and electronic devices that incorporate such patterned arrays are also described.

5. 发明授权

US07442573B2 Scaffold-organized clusters and electronic devices made using such clusters 失效
标题翻译：使用这种集群制作的脚手架组织和电子设备
公开(公告)号：US07442573B2
公开(公告)日：2008-10-28
申请号：US11094049
申请日：2005-03-29
申请人： James E. Hutchison , Scott M. Reed , Martin N. Wybourne
发明人： James E. Hutchison , Scott M. Reed , Martin N. Wybourne
IPC分类号： H01L51/40 , H01L21/4763 , H01L21/302 , H01L21/31
CPC分类号： B82Y30/00 , B82Y10/00 , G01N33/54353 , H01L51/0093 , H01L51/0595
摘要： A method for forming arrays of metal, alloy, semiconductor or magnetic clusters is described. The method comprises placing a scaffold on a substrate, the scaffold comprising, for example, polynucleotides and/or polypeptides, and coupling the clusters to the scaffold. Methods of producing arrays in predetermined patterns and electronic devices that incorporate such patterned arrays are also described.
摘要翻译：描述了形成金属，合金，半导体或磁性簇的阵列的方法。该方法包括将支架放置在底物上，所述支架包含例如多核苷酸和/或多肽，并将所述簇连接到所述支架上。还描述了以预定图案制造阵列的方法和结合了这种图案化阵列的电子装置。

6. 发明授权

US08723407B2 Method of making zinc oxide nanowires 有权
标题翻译：制备氧化锌纳米线的方法
公开(公告)号：US08723407B2
公开(公告)日：2014-05-13
申请号：US12370499
申请日：2009-02-12
申请人： James E. Hutchison , Daisuke Ito
发明人： James E. Hutchison , Daisuke Ito
IPC分类号： H01J19/06 , H01K1/04
CPC分类号： H01J1/304 , H01J2201/30469
摘要： Methods for selectively depositing nanostructures on a support layer include contacting the support layer with functionalized catalyst particles. The functionalized catalyst particles can form a self-assembled monolayer of catalyst particles on the support layer and the functionalized catalyst particles can be used to catalyze nanostructure growth. In one embodiment of the disclosed method, zinc oxide nanowires are grown on a patterned substrate using functionalized gold nanoparticles. Patterned arrays of self-assembled nanostructures and nanoscale devices using such nanostructure arrays are also described.
摘要翻译：将纳米结构选择性沉积在支撑层上的方法包括使支撑层与官能化的催化剂颗粒接触。官能化催化剂颗粒可以在载体层上形成催化剂颗粒的自组装单层，并且官能化的催化剂颗粒可用于催化纳米结构生长。在所公开的方法的一个实施方案中，使用官能化的金纳米颗粒在图案化的衬底上生长氧化锌纳米线。还描述了使用这种纳米结构阵列的自组装纳米结构和纳米级器件的图案阵列。

7. 发明申请

US20090267479A1 METHOD OF MAKING ZINC OXIDE NANOWIRES 有权
标题翻译：制备氧化锌纳米颗粒的方法
公开(公告)号：US20090267479A1
公开(公告)日：2009-10-29
申请号：US12370499
申请日：2009-02-12
申请人： James E. Hutchison , Daisuke Ito
发明人： James E. Hutchison , Daisuke Ito
IPC分类号： H01J1/02 , B05D7/24 , B05D3/00 , H01B5/00
CPC分类号： H01J1/304 , H01J2201/30469
摘要： Methods for selectively depositing nanostructures on a support layer include contacting the support layer with functionalized catalyst particles. The functionalized catalyst particles can form a self-assembled monolayer of catalyst particles on the support layer and the functionalized catalyst particles can be used to catalyze nanostructure growth. In one embodiment of the disclosed method, zinc oxide nanowires are grown on a patterned substrate using functionalized gold nanoparticles. Patterned arrays of self-assembled nanostructures and nanoscale devices using such nanostructure arrays are also described.
摘要翻译：将纳米结构选择性沉积在支撑层上的方法包括使支撑层与官能化的催化剂颗粒接触。官能化催化剂颗粒可以在载体层上形成催化剂颗粒的自组装单层，并且官能化的催化剂颗粒可用于催化纳米结构生长。在所公开的方法的一个实施方案中，使用官能化的金纳米颗粒在图案化的衬底上生长氧化锌纳米线。还描述了使用这种纳米结构阵列的自组装纳米结构和纳米级器件的图案阵列。

8. 发明申请

US20080280099A1 Silicon Substrates with Thermal Oxide Windows for Transmission Electron Microscopy 审中-公开
标题翻译：具有热氧化物窗的硅衬底用于透射电子显微镜
公开(公告)号：US20080280099A1
公开(公告)日：2008-11-13
申请号：US11921056
申请日：2006-05-23
申请人： James E. Hutchison , Gregory J. Kearns
发明人： James E. Hutchison , Gregory J. Kearns
IPC分类号： B32B3/10 , H01B13/00 , G03F7/20
CPC分类号： H01J37/20 , Y10T428/24331
摘要： Silicon grids with electron-transparent SiO2 windows for use as substrates for high-resolution transmission electron microscopy of chemically-modified SiO2 surfaces are fabricated by forming an oxide layer on a silicon substrate. An aperture is defined in the silicon substrate by etching the substrate to the oxide layer. A single substrate can include a plurality of apertures that are in respective frame regions that are defined by one or more channels in the substrate. Tabs are provided to secure the frame regions to the substrate, and the tabs are readily broken to obtain a particular frame region. Conductive or other features can be defined on the oxide layers prior to separation of the frame regions from the substrate.
摘要翻译：具有电子透明SiO 2窗的硅栅，用作化学改性SiO 2表面的高分辨率透射电子显微镜的基板，通过在硅衬底。通过将衬底蚀刻到氧化物层，在硅衬底中限定孔。单个基板可以包括在由基板中的一个或多个通道限定的相应框架区域中的多个孔。提供凸片以将框架区域固定到基板，并且突片容易断裂以获得特定的框架区域。在将框架区域与衬底分离之前，可以在氧化物层上限定导电或其它特征。

9. 发明申请

US20110252580A1 FUNCTIONALIZED NANOPARTICLES AND METHODS OF FORMING AND USING SAME 有权
标题翻译：功能化的纳米颗粒及其形成和使用方法
公开(公告)号：US20110252580A1
公开(公告)日：2011-10-20
申请号：US13129373
申请日：2009-11-16
申请人： John M. Miller , James E. Hutchison , Scott F. Sweeney
发明人： John M. Miller , James E. Hutchison , Scott F. Sweeney
IPC分类号： D06M13/503 , C08B15/06 , C08F8/30 , C07F1/10
CPC分类号： D06M23/08 , D06M11/42 , D06M11/44 , D06M11/45 , D06M11/46 , D06M11/47 , D06M11/48 , D06M11/485 , D06M11/49 , D06M11/83 , Y10T442/2475 , Y10T442/2525 , Y10T442/2762 , Y10T442/277
摘要： Embodiments herein provide a nanoparticle, such as a metal nanoparticle, coupled to a linker molecule to form a nanoparticle-linker construct. In an embodiment, a nanoparticle-linker construct may be further bound to a substrate to take advantage of one or more properties of the nanoparticle. In an embodiment, a functionalized nanoparticle (a nanoparticle having a reactive functionality) may be bound to a linker to form a functionalized nanoparticle-linker construct which may in-turn be bound to a substrate.
摘要翻译：本文的实施方案提供了与连接分子偶联以形成纳米颗粒 - 连接体构建体的纳米颗粒，例如金属纳米颗粒。在一个实施方案中，纳米颗粒 - 接头构建体可以进一步与底物结合以利用纳米颗粒的一种或多种性质。在一个实施方案中，功能化纳米颗粒（具有反应性官能团的纳米颗粒）可以结合到接头以形成官能化的纳米颗粒 - 连接体构建体，其可以依次结合到底物上。

10. 发明申请

US20090099044A1 Nanoparticles and Method to Control Nanoparticle Spacing 审中-公开
标题翻译：纳米颗粒和控制纳米颗粒间距的方法
公开(公告)号：US20090099044A1
公开(公告)日：2009-04-16
申请号：US11920375
申请日：2006-05-22
申请人： James E. Hutchison , Gerd H. Woehrle , Marvin G. Warner , Leif O. Brown
发明人： James E. Hutchison , Gerd H. Woehrle , Marvin G. Warner , Leif O. Brown
IPC分类号： C40B50/14 , C07F7/08
CPC分类号： C07H21/00 , B22F1/0081 , B22F2998/00 , B82Y10/00 , B22F1/0018
摘要： Disclosed herein are novel nanoparticles, particularly metal nanoparticles, such as gold nanoparticles. According to one embodiment of a method disclosed herein nanoparticles are functionalized via ligand exchange reactions. Also disclosed is a method for controlling nanoparticle spacing to produce nanoparticle arrays having defined spacing. Such nanoparticles and arrays thereof are particularly useful in nanoelectronics, nanophotonics, catalysis, sensors, and biotaggents.
摘要翻译：本文公开了新型纳米颗粒，特别是金纳米颗粒，例如金纳米颗粒。根据本文公开的方法的一个实施方案，纳米颗粒通过配体交换反应进行官能化。还公开了一种用于控制纳米颗粒间距以产生具有限定间隔的纳米颗粒阵列的方法。这种纳米颗粒及其阵列在纳米电子学，纳米光子学，催化，传感器和生物分子中特别有用。

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