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41. 发明申请

US20100007876A1 HOLLOW-CORE WAVEGUIDE-BASED RAMAN SYSTEMS AND METHODS 审中-公开
标题翻译：中空波导波形系统和方法
公开(公告)号：US20100007876A1
公开(公告)日：2010-01-14
申请号：US12562443
申请日：2009-09-18
申请人： Rui Chen , Marko Klaus Baller , Peter Joseph Codella , Anis Zribi , Renato Guida , Alexey Vasily Vert , Radislav Alexandrovich Potyrailo , Xiaoyong Liu , Zhiyong Wang
发明人： Rui Chen , Marko Klaus Baller , Peter Joseph Codella , Anis Zribi , Renato Guida , Alexey Vasily Vert , Radislav Alexandrovich Potyrailo , Xiaoyong Liu , Zhiyong Wang
IPC分类号： G01J3/44 , G01N21/00
CPC分类号： G01N21/65 , G01N21/0303 , G01N21/05 , G01N2021/655
摘要： Embodiments of the invention include a method for sensing. Other embodiments include a method for sensing molecules, for example, homonuclear diatomic molecules. The method may include transmitting light from a light source through a hollow-core wave-guiding device that exhibits a low attenuation at predetermined operating optical frequencies; introducing a gaseous medium between the light source and the hollow-core wave-guiding device; and detecting molecules within the gas.
摘要翻译：本发明的实施例包括用于感测的方法。其他实施方案包括用于感测分子的方法，例如同核双原子分子。该方法可以包括通过在预定的操作光频率下呈现低衰减的中空波导装置来传输来自光源的光; 在光源和中空波导装置之间引入气体介质; 并检测气体内的分子。

42. 发明授权

US07574089B1 Optofluidic devices and methods of using the same 失效
标题翻译：光电装置及其使用方法
公开(公告)号：US07574089B1
公开(公告)日：2009-08-11
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： G02B6/00 , G02B6/02 , G02B6/10
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。

43. 发明申请

US20060293169A1 Molecular structures for gas sensing and devices and methods therewith 审中-公开
标题翻译：气体传感器的分子结构及其装置及方法
公开(公告)号：US20060293169A1
公开(公告)日：2006-12-28
申请号：US11178658
申请日：2005-07-08
申请人： Duraiswamy Srinivasan , Anis Zribi , Rashmi Rao , Rajappan Vetrivel
发明人： Duraiswamy Srinivasan , Anis Zribi , Rashmi Rao , Rajappan Vetrivel
IPC分类号： B01J29/04 , H05F3/00
CPC分类号： C01B39/04 , B82Y15/00 , B82Y30/00 , D01D5/003 , D01F9/10
摘要： A porous nanozeolite material having a first dimension less than about 1 micron and a second dimension less than about 100 microns. The nanozeolite material comprises pores having an average diameter less than about 50 nm. A method of making microporous nanozeolites is provided. The method comprises the steps of providing an aqueous solution comprising at least one nanozeolite precursor material or zeolite particles, and electrospinning the aqueous solution onto a substrate to form an electrospun material. The electrospun material comprises microporous nanozeolites. A method of making mesoporous nanozeolites is also provided. The method comprises the step of providing an aqueous solution comprising a nanozeolite precursor material and at least one structure directing agent, and electrospinning the aqueous solution onto a substrate to form an electrospun mesoporous nanozeolite material. A gas sensor device is provided. The device comprises nanozeolite sensing material.
摘要翻译：具有小于约1微米的第一尺寸和小于约100微米的第二尺寸的多孔纳米沸石材料。纳米沸石材料包括平均直径小于约50nm的孔。提供了制造微孔纳米沸石的方法。该方法包括以下步骤：提供包含至少一种纳米沸石前体材料或沸石颗粒的水溶液，并将该水溶液静电纺丝到基底上以形成电纺丝材料。电纺材料包括微孔纳米沸石。还提供了制备介孔纳米沸石的方法。该方法包括提供包含纳米沸石前体材料和至少一种结构导向剂的水溶液的步骤，并将该水溶液静电纺丝到基底上以形成电纺丝介孔纳米沸石材料。提供了一种气体传感器装置。该装置包括纳米沸石传感材料。

44. 发明申请

US20050116831A1 Contactless humidity/chemical vapor sensor device and associated method of fabrication 失效
标题翻译：非接触式湿度/化学气相传感器装置及相关制造方法
公开(公告)号：US20050116831A1
公开(公告)日：2005-06-02
申请号：US10726038
申请日：2003-12-01
申请人： Anis Zribi
发明人： Anis Zribi
IPC分类号： G01N27/00 , G08B17/10
CPC分类号： G01N29/036 , G01N2291/0256
摘要： The invention provides a contactless sensor device operable for sensing water vapor or a predetermined chemical vapor including a thin film, wherein the thin film includes a nanostructured sensing layer and a soft magnetic layer disposed directly adjacent to the nanostructured sensing layer. The thin film has a first mass, a first density, and a first magnetostrictive resonance frequency prior to the nanostructured sensing layer adsorbing a predetermined amount of a predetermined vapor and a second mass, a second density, and a second magnetostrictive resonance frequency subsequent to the nanostructured sensing layer adsorbing the predetermined amount of the predetermined vapor. The sensor device also includes a driving coil disposed indirectly adjacent to and at a predetermined distance from the thin film, the driving coil operable for generating an alternating-current magnetic field used to query a shift in the magnetostrictive resonance frequency of the thin film. The sensor device further includes a measuring coil disposed indirectly adjacent to and at a predetermined distance from the thin film, the measuring coil operable for measuring and quantifying the shift in the magnetostrictive resonance frequency of the thin film.
摘要翻译：本发明提供了一种非接触式传感器装置，可操作用于感测水蒸汽或包含薄膜的预定化学气相，其中薄膜包括直接邻近纳米结构感测层设置的纳米结构感测层和软磁层。在纳米结构感测层吸附预定量的预定蒸气之前具有第一质量，第一密度和第一磁致伸缩共振频率，第二质量，第二密度和第二磁致伸缩共振频率在纳米结构感测层吸附预定量的预定蒸气。传感器装置还包括间隔地与薄膜间隔相邻且距离薄膜预定距离的驱动线圈，驱动线圈可操作用于产生用于查询薄膜的磁致伸缩共振频率偏移的交流磁场。所述传感器装置还包括与所述薄膜间接相邻并且距离所述薄膜预定距离设置的所述测量线圈，所述测量线圈可操作用于测量和量化所述薄膜的磁致伸缩共振频率的偏移。

45. 发明申请

US20050036179A1 Holographic storage medium comprising metal-containing high refractive index region, and storage article containing same 审中-公开
$Holographic storage medium comprising metal-containing high refractive index region, and storage article containing same$
标题翻译：包含含金属的高折射率区域的全息存储介质和包含其的储存物品
公开(公告)号：US20050036179A1
公开(公告)日：2005-02-17
申请号：US10640707
申请日：2003-08-13
申请人： Bret Chisholm , Anis Zribi , Ivy Chong , James Resue
发明人： Bret Chisholm , Anis Zribi , Ivy Chong , James Resue
IPC分类号： C09C1/36 , G11B7/0065 , G11B7/24 , G03H1/00
CPC分类号： B82Y30/00 , C01P2004/64 , C09C1/3684 , G03H2260/12 , G11B7/0065 , G11B7/24044
摘要： Holographic storage media comprise two substrates and a core between them, the core comprising thermoplastic photopolymer and a titanium or zirconium compound as a high refractive index material. During photopatterning of the storage medium precursor, the titanium or zirconium compound migrates toward the patterned region or the matrix region surrounding it, causing a refractive index difference which provides optimum holographic properties.
摘要翻译：全息存储介质包括两个基板和它们之间的芯，芯包括热塑性光聚合物和作为高折射率材料的钛或锆化合物。在存储介质前体的光图案化期间，钛或锆化合物向图案化区域或其周围的基质区域迁移，导致提供最佳全息性质的折射率差异。

46. 发明授权

US07901970B2 Micro-electromechanical system (MEMS) based current and magnetic field sensor having capacitive sense components 有权
标题翻译：基于微机电系统（MEMS）的电流和磁场传感器具有电容感测元件
公开(公告)号：US07901970B2
公开(公告)日：2011-03-08
申请号：US11939589
申请日：2007-11-14
申请人： Anis Zribi , Glenn Scott Claydon , Christopher James Kapusta , Laura Jean Meyer , Ertugal Berkcan , Wei-Cheng Tian
发明人： Anis Zribi , Glenn Scott Claydon , Christopher James Kapusta , Laura Jean Meyer , Ertugal Berkcan , Wei-Cheng Tian
IPC分类号： H01L21/00
CPC分类号： G01R33/0283 , G01R15/148 , G01R33/0286
摘要： A micro-electromechanical system (MEMS) based current & magnetic field sensor includes a MEMS-based magnetic field sensing component having a capacitive magneto-MEMS component, a compensator and an output component for sensing magnetic fields and for providing, in response thereto, an indication of the current present in a respective conductor to be measured. In one embodiment, first and second mechanical sense components are electrically conductive and operate to sense a change in a capacitance between the mechanical sense components in response to a mechanical indicator from a magnetic-to-mechanical converter.
摘要翻译：基于微机电系统（MEMS）的电流和磁场传感器包括具有电容式磁MEMS组件的基于MEMS的磁场感测部件，补偿器和用于感测磁场的输出部件，并且响应于此而提供当前存在于待测量的导体中的指示。在一个实施例中，第一和第二机械感测部件是导电的并且用于响应于来自磁 - 机械转换器的机械指示器感测机械感测部件之间的电容的变化。

47. 发明授权

US07595882B1 Hollow-core waveguide-based raman systems and methods 有权
标题翻译：基于空心波导的拉曼系统和方法
公开(公告)号：US07595882B1
公开(公告)日：2009-09-29
申请号：US12102079
申请日：2008-04-14
申请人： Rui Chen , Marko Klaus Baller , Peter Joseph Codella , Anis Zribi , Renato Guida , Alexey Vasily Vert , Radislav Alexandrovich Potyrailo , Xiaoyong Liu , Zhiyong Wang
发明人： Rui Chen , Marko Klaus Baller , Peter Joseph Codella , Anis Zribi , Renato Guida , Alexey Vasily Vert , Radislav Alexandrovich Potyrailo , Xiaoyong Liu , Zhiyong Wang
IPC分类号： G01N21/00
CPC分类号： G01N21/65 , G01N21/0303 , G01N21/05 , G01N2021/655
摘要： Embodiments of the invention include a system for sensing homonuclear diatomic molecules, such as, for example, nitrogen. Other embodiments include a method for sensing homonuclear diatomic molecules. The system may include a light source, a hollow-core wave-guiding device that exhibits a low attenuation at predetermined operating optical frequencies and is in optical communication with the light source, a gas introduction system for introducing a gaseous medium between the light source and the hollow-core wave-guiding device, and a detector in optical communication with the hollow-core wave-guiding device.
摘要翻译：本发明的实施例包括用于感测同核双原子分子（例如氮）的系统。其他实施方案包括用于感测同核双原子分子的方法。该系统可以包括光源，在预定的操作光频率下呈现低衰减并与光源光学通信的中空波导引装置，用于在光源和中空波导装置以及与中空导波装置光连通的检测器。

48. 发明授权

US07428055B2 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结垢检测系统及方法
公开(公告)号：US07428055B2
公开(公告)日：2008-09-23
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 , G01N21/43
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。

49. 发明申请

US20060075836A1 Pressure sensor and method of operation thereof 审中-公开
标题翻译：压力传感器及其操作方法
公开(公告)号：US20060075836A1
公开(公告)日：2006-04-13
申请号：US10964067
申请日：2004-10-13
申请人： Anis Zribi , Luana Emiliana Iorio , Daniel Joseph Lewis
发明人： Anis Zribi , Luana Emiliana Iorio , Daniel Joseph Lewis
IPC分类号： G01D5/12 , G01L9/12 , G01R3/00
CPC分类号： G01L9/007 , G01L1/086 , G01L5/00 , G01L9/0008 , G01L11/008 , Y10T29/49007
摘要： A sensor for measuring an input signal is provided. The sensor includes a transducer having a soft magnetic material. The transducer may be disposed on a spring element. The soft magnetic material produces a change in impedance when the transducer is stimulated by the input signal. The impedance change is representative of a magnitude of the input signal. The sensor further includes a circuit coupled to the transducer, which is operable to measure the impedance change to determine the magnitude of the input signal. A method of operating the sensor is also provided.
摘要翻译：提供了用于测量输入信号的传感器。传感器包括具有软磁材料的换能器。换能器可以设置在弹簧元件上。当传感器被输入信号刺激时，软磁材料产生阻抗变化。阻抗变化表示输入信号的大小。传感器还包括耦合到换能器的电路，其可操作以测量阻抗变化以确定输入信号的幅度。还提供了一种操作传感器的方法。

50. 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。

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