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1. 发明申请

US20100108132A1 NANO-DEVICES AND METHODS OF MANUFACTURE THEREOF 审中-公开
标题翻译：纳米器件及其制造方法
公开(公告)号：US20100108132A1
公开(公告)日：2010-05-06
申请号：US12261171
申请日：2008-10-30
申请人： Loucas Tsakalakos , Bastiaan Arie Korevaar , Joleyn Eileen Balch , Jody Fronheiser , Bo Li , Anis Zribi
发明人： Loucas Tsakalakos , Bastiaan Arie Korevaar , Joleyn Eileen Balch , Jody Fronheiser , Bo Li , Anis Zribi
IPC分类号： H01L31/0352 , H01L21/20 , H01L29/06
CPC分类号： H01L21/02381 , B81B1/00 , B81B2201/0214 , B81B2201/0292 , B82Y10/00 , B82Y15/00 , B82Y30/00 , H01L21/02521 , H01L21/02532 , H01L21/02645 , H01L21/02653 , H01L29/0665 , H01L29/0673 , H01L29/0676 , H01L31/035227 , H01L31/03529
摘要： Disclosed herein is a nanodevice. Disclosed herein too is a method of manufacturing a nanodevice. In one embodiment the nanodevice includes a first substrate; a second substrate; a nanowire; the nanowire contacting the first substrate and the second substrate; the nanowire comprising a metal, a semi-conductor or a combination thereof.
摘要翻译：本文公开了一种纳米器件。这里也公开了一种制造纳米器件的方法。在一个实施例中，纳米器件包括第一衬底; 第二基板; 纳米线所述纳米线与所述第一基板和所述第二基板接触; 纳米线包括金属，半导体或其组合。

2. 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。

3. 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。

4. 发明授权

US09395324B2 Thin film micromachined gas sensor 有权
标题翻译：薄膜微加工气体传感器
公开(公告)号：US09395324B2
公开(公告)日：2016-07-19
申请号：US13994584
申请日：2010-12-14
申请人： Anis Zribi , Ken Mott
发明人： Anis Zribi , Ken Mott
IPC分类号： G01N27/407
CPC分类号： G01N27/4074
摘要： A thin film/MEMS electrochemical gas sensor includes a body having first and second joined subassemblies to form an interior portion of the body, and is composed of a semiconductor material. The body includes at least one opening configured to allow air to pass into the interior portion of the body. A membrane stack is located in the interior of the body, producing an electrical signal that represents a concentration of target gas in the air at the membrane stack. Conductive contacts are configured to provide electrical connection to the membrane stack to access the electrical signal produced by the membrane stack.
摘要翻译：薄膜/ MEMS电化学气体传感器包括具有第一和第二接合子组件的主体，以形成主体的内部部分，并由半导体材料构成。主体包括构造成允许空气进入身体内部的至少一个开口。膜堆叠位于主体的内部，产生一个电信号，表示膜叠层空气中目标气体的浓度。导电触头被构造成提供与膜堆叠的电连接以访问由膜堆产生的电信号。

5. 发明申请

US20090201497A1 OPTOFLUIDIC DEVICES AND METHODS OF USING THE SAME 失效
标题翻译：光学器件及其使用方法
公开(公告)号：US20090201497A1
公开(公告)日：2009-08-13
申请号：US11400947
申请日：2006-04-10
申请人： Anis Zribi , Wei-Cheng Tian , Yuan-Hsiang Lee , Min-Yi Shih
发明人： Anis Zribi , Wei-Cheng Tian , Yuan-Hsiang Lee , Min-Yi Shih
IPC分类号： G01J3/40 , G01N21/01
CPC分类号： G01N21/0303 , G01N21/658 , G01N30/74 , G01N2021/651 , G02B6/10 , G02B2006/1213
摘要： An optofluidic device is provided. The device includes a cladding region having a first refractive index, and a channel defined by the cladding region such that the cladding region forms an inner surface or an interface of the channel. The channel is configured to house one or more of a liquid, a solid, a gas, a colloidal, or a suspension sample, wherein the sample has a second refractive index, where the channel is configured to guide radiation, and where the first refractive index is lower than the second refractive index.
摘要翻译：提供了一种光流体装置。该器件包括具有第一折射率的包层区域和由包层区域限定的沟道，使得包层区域形成沟道的内表面或界面。通道被配置成容纳液体，固体，气体，胶体或悬浮样品中的一种或多种，其中样品具有第二折射率，其中通道被构造成引导辐射，并且其中第一折射指数低于第二折射率。

6. 发明授权

US07466121B2 MEMS based current sensor using magnetic-to-mechanical conversion and reference components 有权
标题翻译：基于MEMS的电流传感器采用磁 - 机转换和参考元件
公开(公告)号：US07466121B2
公开(公告)日：2008-12-16
申请号：US11506493
申请日：2006-08-18
申请人： Ertugrul Berkcan , Christopher James Kapusta , Glenn Scott Claydon , Anis Zribi , Laura Jean Meyer , Wei-Cheng Tian
发明人： Ertugrul Berkcan , Christopher James Kapusta , Glenn Scott Claydon , Anis Zribi , Laura Jean Meyer , Wei-Cheng Tian
IPC分类号： G01R33/00
CPC分类号： G01R33/0283 , G01R15/148 , G01R33/0286
摘要： A micro-electromechanical system (MEMS) current sensor is described as including a first conductor, a magnetic field shaping component for shaping a magnetic field produced by a current in the first conductor, and a MEMS-based magnetic field sensing component including a magneto-MEMS component for sensing the shaped magnetic field and, in response thereto, providing an indication of the current in the first conductor. A method for sensing a current using MEMS is also described as including shaping a magnetic field produced with a current in a first conductor, sensing the shaped magnetic field with a MEMS-based magnetic field sensing component having a magneto-MEMS component magnetic field sensing circuit, and providing an indication of the current in the first conductor.
摘要翻译：微机电系统（MEMS）电流传感器被描述为包括第一导体，用于使由第一导体中的电流产生的磁场成形的磁场成形部件，以及包括磁 - 用于感测成形磁场的MEMS组件，并且响应于此，提供第一导体中的电流的指示。还描述了一种用于感测使用MEMS的电流的方法，包括使用在第一导体中的电流产生的磁场成形，用具有磁MEMS组件磁场感测电路的基于MEMS的磁场感测组件感测成形的磁场并且提供第一导体中的电流的指示。

7. 发明申请

US20080204743A1 METHOD AND APPARATUS FOR IMPROVED SIGNAL TO NOISE RATIO IN RAMAN SIGNAL DETECTION FOR MEMS BASED SPECTROMETERS 失效
公开(公告)号：US20080204743A1
公开(公告)日：2008-08-28
申请号：US12104471
申请日：2008-04-17
申请人： Sandip Maity , Ayan Banerjee , Anis Zribi , Stacey Kennerly , Long Que , Glenn Claydon , Shankar Chandrasekaran , Shivappa Goravar
发明人： Sandip Maity , Ayan Banerjee , Anis Zribi , Stacey Kennerly , Long Que , Glenn Claydon , Shankar Chandrasekaran , Shivappa Goravar
IPC分类号： G01J3/44
CPC分类号： G01J3/44 , G01J1/44 , G01J3/02 , G01J3/0229 , G01J3/0232 , G01J3/0256 , G01J3/0264 , G01J3/0272 , G01J3/0286 , G01J3/0297 , G01J3/1895 , G01J3/4338 , G02B26/04 , H01L31/107
摘要： A method of Raman detection for a portable, integrated spectrometer instrument includes directing Raman scattered photons by a sample to an avalanche photodiode (APD), the APD configured to generate an output signal responsive to the intensity of the Raman scattered photons incident thereon. The output signal of the APD is amplified and passed through a discriminator so as to reject at least one or more of amplifier noise and dark noise. A number of discrete output pulses within a set operational range of the discriminator is counted so as to determine a number of photons detected by the APD.

8. 发明申请

US20080084565A1 INTERFEROMETER-BASED REAL TIME EARLY FOULING DETECTION SYSTEM AND METHOD 有权
标题翻译：基于干涉仪的实时早期检测系统和方法
公开(公告)号：US20080084565A1
公开(公告)日：2008-04-10
申请号：US11538885
申请日：2006-10-05
申请人： Anis Zribi , Min-Yi Shih , Guiju Song , Ajit Achuthan , Glenn Scott Claydon , Stacey Joy Kennerly , Kuna Venkat Satya Rama Kishore , Jianming Zheng , Kevin George Harding , Hua Xia
发明人： Anis Zribi , Min-Yi Shih , Guiju Song , Ajit Achuthan , Glenn Scott Claydon , Stacey Joy Kennerly , Kuna Venkat Satya Rama Kishore , Jianming Zheng , Kevin George Harding , Hua Xia
IPC分类号： G01B9/02
CPC分类号： G01D5/35303 , G01D5/268 , G01N17/008 , G01N21/45 , G01N21/8422 , G01N2021/458 , G01N2021/9546
摘要： A interferometer-based fouling detection system and method are described. The system may include a fiber optic cable, a light source in communication with the fiber optic cable, at least one photo detector in communication with the fiber optic cable, and at least one interferometric spectrometer. The fiber optic cable may include a long period grating and a fiber Bragg grating or it may include a facet edge. The system may instead include a fiber optic cable, a light source in communication with the fiber optic cable, at least one photo detector in communication with the fiber optic cable, a fiber coupler, a reference probe including a mirror, a sample probe, and an interferometer.
摘要翻译：描述了基于干涉仪的结垢检测系统和方法。该系统可以包括光纤电缆，与光纤电缆通信的光源，与光纤电缆通信的至少一个光电检测器，以及至少一个干涉光谱仪。光纤电缆可以包括长周期光栅和光纤布拉格光栅，或者它可以包括小面边缘。该系统可以替代地包括光纤电缆，与光纤电缆通信的光源，与光纤电缆通信的至少一个光电检测器，光纤耦合器，包括反射镜的参考探针，样本探针和干涉仪。

9. 发明授权

US07338640B2 Thermopile-based gas sensor 失效
标题翻译：基于热电堆的气体传感器
公开(公告)号：US07338640B2
公开(公告)日：2008-03-04
申请号：US11095243
申请日：2005-03-31
申请人： Sunil Srinivasa Murthy , Anis Zribi , Shankar Chandrasekaran
发明人： Sunil Srinivasa Murthy , Anis Zribi , Shankar Chandrasekaran
IPC分类号： B32B5/02 , B32B27/04 , B32B27/12 , G01N7/00 , G01N21/00
CPC分类号： G01N25/4893 , Y10T436/11
摘要： A method of manufacturing a sensor is provided. The method includes disposing a sacrificial layer on a substrate, disposing a low-thermal-conductivity layer on the sacrificial layer, and disposing a first set of conductive arms and a second set of conductive arms on the low-thermal-conductivity layer to form a plurality of thermal junctions. The plurality of thermal junctions is adapted to form a plurality of hot junctions and a plurality of cold junctions when subjected to a difference in temperature. The method also includes removing the sacrificial layer and a portion of the low-thermal-conductivity layer to form a cavity therein. The cavity is configured to provide insulation for the plurality of hot junctions. A thermopile sensor is also provided, and a calorimetric gas sensor implementing the thermopile sensor is provided.
摘要翻译：提供一种制造传感器的方法。该方法包括在衬底上设置牺牲层，在牺牲层上设置低热导率层，以及将第一组导电臂和第二组导电臂设置在低热导率层上以形成多个热路口。多个热接头适于在经受温差时形成多个热接点和多个冷接点。该方法还包括去除牺牲层和低热导率层的一部分以在其中形成空腔。空腔构造成为多个热接点提供绝缘。还提供热电堆传感器，并提供实现热电堆传感器的量热气体传感器。

10. 发明申请

US20070004975A1 System and method for non-invasive glucose monitoring 失效
标题翻译：用于非侵入性葡萄糖监测的系统和方法
公开(公告)号：US20070004975A1
公开(公告)日：2007-01-04
申请号：US11172648
申请日：2005-06-30
申请人： Anis Zribi , Peter Codella , Min-Yi Shih , Ganesh Gangadharan , Rui Chen
发明人： Anis Zribi , Peter Codella , Min-Yi Shih , Ganesh Gangadharan , Rui Chen
IPC分类号： A61B5/00
CPC分类号： A61B5/14546 , A61B5/14532 , A61B5/14558 , G01J3/44 , G01J3/447 , G01N21/21 , G01N21/65
摘要： A method for determining analyte concentration levels is provided. The method includes acquiring radiation scattered off or transmitted by a target, analyzing at least a first portion of the radiation via a first technique to generate a first measurement of analyte concentration levels, and analyzing at least a second portion of the radiation via a second technique to generate a second measurement of analyte concentration levels. The method further determines analyte concentration levels based on at least one of the first measurement or the second measurement. In addition, a system for implementing the method and a probe for measuring and monitoring the analyte concentration levels is provided.
摘要翻译：提供了一种用于确定分析物浓度水平的方法。该方法包括获取由目标散射或透射的辐射，经由第一技术分析辐射的至少第一部分以产生分析物浓度水平的第一测量，以及通过第二技术分析辐射的至少第二部分以产生分析物浓度水平的第二次测量。该方法还基于第一测量或第二测量中的至少一个来确定分析物浓度水平。另外，提供了用于实现该方法的系统和用于测量和监测分析物浓度水平的探针。

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