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11. 发明授权

US06988826B2 Nano-calorimeter device and associated methods of fabrication and use 失效
标题翻译：纳米量热仪装置及相关的制造和使用方法
公开(公告)号：US06988826B2
公开(公告)日：2006-01-24
申请号：US10847180
申请日：2004-05-17
申请人： Anis Zribi , Azar Alizadeh , Suryaprakash Ganti , Juan Antonio Sabate , Loucas Tsakalakos , Kenneth Roger Conway
发明人： Anis Zribi , Azar Alizadeh , Suryaprakash Ganti , Juan Antonio Sabate , Loucas Tsakalakos , Kenneth Roger Conway
IPC分类号： G01K17/00 , G01N25/00
CPC分类号： B82Y15/00 , G01K17/006 , G01N25/4866
摘要： The present invention provides a nano-calorimeter device operable for measuring and characterizing the thermodynamic and other physical properties of materials that are confined to essentially nano-scale dimensions. The nano-calorimeter device including a thin film membrane having a first surface and a second surface. The nano-calorimeter device also including a frame structure disposed adjacent to and in thermal contact with the first surface of the thin film membrane, the frame structure defining a plurality of hollow cells adjacent to and in thermal contact with the first surface of the thin film membrane. The nano-calorimeter device further including one or more micro-heating elements disposed adjacent to and in thermal contact with the second surface of the thin film membrane, the location of the one or more micro-heating elements disposed adjacent to the second surface of the thin film membrane substantially corresponding to the location of the plurality of hollow cells defined adjacent to the first surface of the thin film membrane.
摘要翻译：本发明提供一种可用于测量和表征被限制在基本上纳米级尺寸的材料的热力学和其它物理性能的纳米量热器装置。纳米量热器装置包括具有第一表面和第二表面的薄膜膜。所述纳米量热器装置还包括邻近所述薄膜膜的所述第一表面设置并与所述薄膜膜的第一表面热接触的框架结构，所述框架结构限定与所述薄膜的所述第一表面相邻并且与所述薄膜的第一表面热接触的多个中空细胞膜。所述纳米量热器装置还包括一个或多个设置在所述薄膜膜的第二表面附近并与之相接触的微加热元件，所述一个或多个微加热元件邻近所述薄膜膜的第二表面设置的位置薄膜膜基本上对应于与薄膜膜的第一表面相邻限定的多个中空细胞的位置。

12. 发明申请

US20050254547A1 Nano-calorimeter device and associated methods of fabrication and use 失效
标题翻译：纳米量热仪装置及相关的制造和使用方法
公开(公告)号：US20050254547A1
公开(公告)日：2005-11-17
申请号：US10847180
申请日：2004-05-17
申请人： Anis Zribi , Azar Alizadeh , Suryaprakash Ganti , Juan Sabate , Loucas Tsakalakos , Kenneth Conway
发明人： Anis Zribi , Azar Alizadeh , Suryaprakash Ganti , Juan Sabate , Loucas Tsakalakos , Kenneth Conway
IPC分类号： G01K17/00 , G01N25/00 , G01N25/20 , G01N25/48
CPC分类号： B82Y15/00 , G01K17/006 , G01N25/4866
摘要： The present invention provides a nano-calorimeter device operable for measuring and characterizing the thermodynamic and other physical properties of materials that are confined to essentially nano-scale dimensions. The nano-calorimeter device including a thin film membrane having a first surface and a second surface. The nano-calorimeter device also including a frame structure disposed adjacent to and in thermal contact with the first surface of the thin film membrane, the frame structure defining a plurality of hollow cells adjacent to and in thermal contact with the first surface of the thin film membrane. The nano-calorimeter device further including one or more micro-heating elements disposed adjacent to and in thermal contact with the second surface of the thin film membrane, the location of the one or more micro-heating elements disposed adjacent to the second surface of the thin film membrane substantially corresponding to the location of the plurality of hollow cells defined adjacent to the first surface of the thin film membrane.
摘要翻译：本发明提供一种可用于测量和表征被限制在基本上纳米级尺寸的材料的热力学和其它物理性能的纳米量热器装置。纳米量热器装置包括具有第一表面和第二表面的薄膜膜。所述纳米量热器装置还包括邻近所述薄膜膜的所述第一表面设置并与所述薄膜膜的第一表面热接触的框架结构，所述框架结构限定与所述薄膜的所述第一表面相邻并且与所述薄膜的第一表面热接触的多个中空细胞膜。所述纳米量热器装置还包括一个或多个设置在所述薄膜膜的第二表面附近并与之相接触的微加热元件，所述一个或多个微加热元件邻近所述薄膜膜的第二表面设置的位置薄膜膜基本上对应于与薄膜膜的第一表面相邻限定的多个中空细胞的位置。

13. 发明申请

US20080073743A1 Templated growth of semiconductor nanostructures, related devices and methods 审中-公开
标题翻译：半导体纳米结构的模板生长，相关器件和方法
公开(公告)号：US20080073743A1
公开(公告)日：2008-03-27
申请号：US11707935
申请日：2007-02-20
申请人： Azar Alizadeh , Fred Sharifi , Christopher Keimel , Ji Lee , Nicole Evers , Kenneth Conway , Edit Braunstein , Colin Jones
发明人： Azar Alizadeh , Fred Sharifi , Christopher Keimel , Ji Lee , Nicole Evers , Kenneth Conway , Edit Braunstein , Colin Jones
IPC分类号： H01L31/06 , H01L21/00
CPC分类号： H01L31/18 , B82Y10/00 , B82Y20/00 , B82Y30/00 , H01L31/035236 , H01L31/101
摘要： Photodetector arrangements, designs and fabrication techniques are described related to semiconductor nanostructures. Arrangements and techniques are described which utilize a nano-patterned template for growing semiconductor nanostructures and/or heterostructures. Resulting photodetectors are also described.
摘要翻译：描述与半导体纳米结构相关的光电检测器布置，设计和制造技术。描述了利用纳米图案模板来生长半导体纳米结构和/或异质结构的布置和技术。还描述了所得到的光电探测器。

14. 发明授权

US07122827B2 Monolithic light emitting devices based on wide bandgap semiconductor nanostructures and methods for making same 有权
标题翻译：基于宽带隙半导体纳米结构的单片发光器件及其制造方法
公开(公告)号：US07122827B2
公开(公告)日：2006-10-17
申请号：US10686136
申请日：2003-10-15
申请人： Azar Alizadeh , Pradeep Sharma , Steven Francis LeBoeuf , Suryaprakash Ganti , Mark Philip D'Evelyn , Kenneth Roger Conway , Peter Micah Sandvik , Loucas Tsakalakos
发明人： Azar Alizadeh , Pradeep Sharma , Steven Francis LeBoeuf , Suryaprakash Ganti , Mark Philip D'Evelyn , Kenneth Roger Conway , Peter Micah Sandvik , Loucas Tsakalakos
IPC分类号： H01L29/06
CPC分类号： G02B6/1225 , B82Y20/00 , H01L33/24 , H01S5/1042 , H01S5/183 , H01S5/3412 , H01S5/423
摘要： The present invention is directed toward a method for fabricating low-defect nanostructures of wide bandgap materials and to optoelectronic devices, such as light emitting sources and lasers, based on them. The invention utilizes nanolithographically-defined templates to form nanostructures of wide bandgap materials that are energetically unfavorable for dislocation formation. In particular, this invention provides a method for the fabrication of phosphor-less monolithic white light emitting diodes and laser diodes that can be used for general illumination and other applications.
摘要翻译：本发明涉及一种用于制造宽带隙材料的低缺陷纳米结构和基于它们的光电子器件（例如发光源和激光器）的方法。本发明利用纳米光刻定义的模板来形成在能量上不利于位错形成的宽带隙材料的纳米结构。特别地，本发明提供了一种制造无磷的单片白光发光二极管和激光二极管的方法，可用于一般照明和其它应用。

15. 发明申请

US20060216476A1 Articles having a surface with low wettability and method of making 审中-公开
标题翻译：具有低润湿性的表面的制品和制造方法
公开(公告)号：US20060216476A1
公开(公告)日：2006-09-28
申请号：US11091800
申请日：2005-03-28
申请人： Suryaprakash Ganti , Tao Deng , Veera Rajendran , Anthony Ku , Judith Stein , Gregory O'Neil , Azar Alizadeh , Margaret Blohm , Kattalaicheri Venkataramani
发明人： Suryaprakash Ganti , Tao Deng , Veera Rajendran , Anthony Ku , Judith Stein , Gregory O'Neil , Azar Alizadeh , Margaret Blohm , Kattalaicheri Venkataramani
IPC分类号： E01F9/04
CPC分类号： C23C18/02 , C23C18/122 , C23C18/1233 , C23C18/1279 , E01F9/40 , Y10T428/24355 , Y10T428/24372
摘要： An article comprises a textured surface disposed on a substrate. The surface has an effective liquid wettability sufficient to generate, with a reference liquid, a contact angle in a range from about 120° to about 180°. The surface comprises a material having a nominal liquid wettability sufficient to generate, with the reference liquid, a nominal contact angle in a range from about 60° to about 90°, the material comprising at least one material selected from the group consisting of a polymer and a ceramic. The properties of the surface may include low-drag or low-friction, self-cleaning capability, and resistance to icing, fouling, and fogging, and the like. Methods of making such a surface are also described.
摘要翻译：一种制品包括设置在基底上的纹理表面。该表面具有足够的有效的液体润湿性，可以用参考液体产生约120°至约180°范围内的接触角。表面包括具有足以产生参考液体在约60°至约90°范围内的标称接触角的标称液体润湿性的材料，该材料包含选自聚合物和陶瓷。表面的性质可以包括低阻力或低摩擦，自清洁能力，耐结冰，结垢和起雾等。还描述了制造这种表面的方法。

16. 发明申请

US20060024847A1 Controlled optoelectronic coupling in nanoparticle arrays 审中-公开
标题翻译：纳米颗粒阵列中的受控光电耦合
公开(公告)号：US20060024847A1
公开(公告)日：2006-02-02
申请号：US11157548
申请日：2005-06-21
申请人： Fazila Seker , Patrick Lucien Malenfant , Azar Alizadeh
发明人： Fazila Seker , Patrick Lucien Malenfant , Azar Alizadeh
IPC分类号： G01N33/545
CPC分类号： B82Y30/00 , B82Y20/00 , G01N21/31 , G01N21/55
摘要： In some embodiments, the present invention is directed to methods by which nanoparticle interactions can be controlled, compositions with which such interactions can be controlled, and devices which utilize the control of such interactions. Generally, such methods involve grafting polymer to electromagnetically-functional cores to form a core/shell nanoparticle, assembling a plurality of such core/shell nanoparticles to form an assembly, and exposing the assembly to at least one environmental stimulus to which the polymer is responsive so as to modulate the interparticle interactions of the electromagnetically-functional cores. The present invention is also directed to the compositions resulting from such methods and to the methods and associated devices for controlling the interparticle interactions in such compositions.
摘要翻译：在一些实施方案中，本发明涉及可以控制纳米颗粒相互作用的方法，可以控制这些相互作用的组合物，以及利用这种相互作用的控制的装置。通常，这种方法包括将聚合物接枝到电磁功能芯上以形成核/壳纳米颗粒，组装多个这样的核/壳纳米颗粒以形成组件，并将组件暴露于聚合物响应的至少一种环境刺激以便调节电磁功能核心的颗粒间相互作用。本发明还涉及由这些方法得到的组合物以及用于控制这些组合物中颗粒间相互作用的方法和相关装置。

17. 发明申请

US20050159293A1 Nanoscale ordered composites of covalent ceramics for high-temperature structural applications via block-copolymer-assisted assembly and method of making 有权
标题翻译：通过嵌段共聚物辅助组装和制备方法，用于高温结构应用的共价陶瓷的纳米级有序复合材料
公开(公告)号：US20050159293A1
公开(公告)日：2005-07-21
申请号：US10761076
申请日：2004-01-16
申请人： Julin Wan , Azar Alizadeh , Sergio Paulo Loureiro , Mohan Manoharan , Patrick Roland Malenfant , Eric Crane Olson , Seth Taylor
发明人： Julin Wan , Azar Alizadeh , Sergio Paulo Loureiro , Mohan Manoharan , Patrick Roland Malenfant , Eric Crane Olson , Seth Taylor
IPC分类号： C04B35/524 , C04B35/563 , C04B35/571 , C04B35/583 , C04B35/589 , C04B35/597 , C04B35/634 , C04B38/00
CPC分类号： C04B35/634 , B01D71/024 , B82Y30/00 , C04B35/524 , C04B35/563 , C04B35/571 , C04B35/583 , C04B35/584 , C04B35/589 , C04B35/597 , C04B35/6267 , C04B38/0022 , C04B2235/3856 , C04B2235/3873 , C04B2235/46 , C04B2235/465 , C04B2235/48 , C04B2235/483 , C04B2235/486 , C04B2235/76 , C04B2235/781 , C04B2235/80 , G03F7/0002 , C04B35/565 , C04B38/0054
摘要： A method of making nanoscale ordered composites of covalent ceramics through block copolymer-assisted assembly. At least one polymeric precursor is mixed with a block copolymer, and self-assembly of the mixture proceeds through an annealing process. During the annealing step, the polymeric precursor cross-links to form a structure robust enough to survive both the order-disorder transition temperature the block copolymer and the pyrolysis process, yielding ordered nanocomposites of high temperature ceramic materials. The method yields a variety of structures and morphologies. A ceramic material having at least one ceramic phase that has an ordered structure on a nanoscale and thermally stable up to a temperature of at least about 800° C. is also disclosed. The ceramic material is suitable for use in hot gas path assemblies, such as turbine assemblies, boilers, combustors, and the like.
摘要翻译：通过嵌段共聚物辅助组装制备共价陶瓷的纳米级有序复合材料的方法。将至少一种聚合物前体与嵌段共聚物混合，并且混合物的自组装通过退火工艺进行。在退火步骤期间，聚合物前体交联以形成足够坚固的结构，以在嵌段共聚物和热解过程的顺序无序转变温度下存活，产生高温陶瓷材料的有序纳米复合材料。该方法产生各种结构和形态。还公开了一种陶瓷材料，其具有至少一个陶瓷相，其具有纳米级的有序结构并且至多达到至少约800℃的温度是热稳定的。陶瓷材料适用于热气路径组件，例如涡轮机组件，锅炉，燃烧器等。

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