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1. 发明申请

US20090165533A1 SENSOR DEVICE WITH HEATED NANOSTRUCTURE 审中-公开
标题翻译：具有加热纳米结构的传感器装置
公开(公告)号：US20090165533A1
公开(公告)日：2009-07-02
申请号：US12245638
申请日：2008-10-03
申请人： Tzong-Ru Han , Alexander Star , Philip G. Collins , Jean-Christophe P. Gabriel , George Gruner , Keith Bradley
发明人： Tzong-Ru Han , Alexander Star , Philip G. Collins , Jean-Christophe P. Gabriel , George Gruner , Keith Bradley
IPC分类号： G01N7/00
CPC分类号： G01N25/20
摘要： A nanostructure sensing device includes a substrate, a nanotube disposed over the substrate, and at least two conductive elements electrically connected to the nanotube. A electric current on the order of about 10 μA, or greater, is passed through the conductive elements and the nanotube. As a result, the nanotube heats up relative to the substrate. In the alternative, some other method may be used to heat the nanotube. When operated as a sensor with a heated nanotube, the sensor's response and/or recovery time may be markedly improved.
摘要翻译：纳米结构感测装置包括衬底，设置在衬底上的纳米管以及电连接到纳米管的至少两个导电元件。大约10μA或更大的电流通过导电元件和纳米管。结果，纳米管相对于基底加热。在替代方案中，可以使用一些其它方法来加热纳米管。当作为具有加热的纳米管的传感器操作时，可以显着改善传感器的响应和/或恢复时间。

2. 发明授权

US06894359B2 Sensitivity control for nanotube sensors 有权
标题翻译：纳米管传感器的灵敏度控制
公开(公告)号：US06894359B2
公开(公告)日：2005-05-17
申请号：US10280265
申请日：2002-10-26
申请人： Keith Bradley , Philip G. Collins , Jean-Christophe P. Gabriel , George Gruner , Alexander Star
发明人： Keith Bradley , Philip G. Collins , Jean-Christophe P. Gabriel , George Gruner , Alexander Star
IPC分类号： G01N27/12 , G01N27/414 , H01L27/14 , H01L29/82 , H01L29/84
CPC分类号： B82Y15/00 , G01N27/129 , Y10S977/734
摘要： Nanostructure sensing devices for detecting an analyte are described. The devices include nanostructures connected to conductive elements, all on a substrate. Contact regions adjacent to points of contact between the nanostructures and the conductive elements are given special treatment. The proportion of nanostructure surface area within contact regions can be maximized to effect sensing at very low analyte concentrations. The contact regions can be passivated in an effort to prevent interaction between the environment and the contact regions for sensing at higher analyte concentrations and for reducing cross-sensing. Both contact regions and at least some portion of the nanostructures can be covered with a material that is at least partially permeable to the analyte of interest and impermeable to some other species to tune selectivity and sensitivity of the nanostructure sensing device.
摘要翻译：描述了用于检测分析物的纳米结构感测装置。这些器件包括连接到导电元件的纳米结构，全部在衬底上。给予与纳米结构和导电元件之间的接触点相邻的接触区域的特殊处理。可以使接触区域内的纳米结构表面积的比例最大化，以在非常低的分析物浓度下进行感测。可以钝化接触区域，以防止环境和接触区域之间的相互作用，以便在较高分析物浓度下进行感测并减少交叉感测。两个接触区域和纳米结构的至少一部分可以被对感兴趣的分析物至少部分可渗透的材料覆盖，并且对于一些其它物质是不可渗透的，以调节纳米结构感测装置的选择性和灵敏度。

3. 发明授权

US07575933B2 Modification of selectivity for sensing for nanostructure device arrays 失效
标题翻译：纳米结构器件阵列感测选择性的改进
公开(公告)号：US07575933B2
公开(公告)日：2009-08-18
申请号：US11139184
申请日：2005-05-27
申请人： Jean-Christophe P. Gabriel , Philip G. Collins , Keith Bradley , George Gruner
发明人： Jean-Christophe P. Gabriel , Philip G. Collins , Keith Bradley , George Gruner
IPC分类号： G01N21/00
CPC分类号： G01N27/127 , B01J2219/00653 , B01L3/5027 , B82Y15/00 , G01N27/126 , Y10S977/84 , Y10S977/855 , Y10S977/882 , Y10S977/92 , Y10S977/957 , Y10S977/958 , Y10T436/11
摘要： An electronic system for selectively detecting and identifying a plurality of chemical species, which comprises an array of nanostructure sensing devices, is disclosed. Within the array, there are at least two different selectivities for sensing among the nanostructure sensing devices. Methods for fabricating the electronic system are also disclosed. The methods involve modifying nanostructures within the devices to have different selectivity for sensing chemical species. Modification can involve chemical, electrochemical, and self-limiting point defect reactions. Reactants for these reactions can be supplied using a bath method or a chemical jet method. Methods for using the arrays of nanostructure sensing devices to detect and identify a plurality of chemical species are also provided. The methods involve comparing signals from nanostructure sensing devices that have not been exposed to the chemical species of interest with signals from nanostructure sensing devices that have been exposed to the chemical species of interest. Nanostructure sensing device array structures that can measure and subtract out environmental factors are also disclosed.
摘要翻译：公开了一种用于选择性地检测和识别包括纳米结构感测装置阵列的多种化学物质的电子系统。在阵列内，在纳米结构感测装置中有至少两种用于感测的不同选择性。还公开了用于制造电子系统的方法。这些方法包括修改装置内的纳米结构以具有感测化学物质的不同选择性。修饰可能涉及化学，电化学和自限制点缺陷反应。这些反应的反应物可以使用浴法或化学喷射法提供。还提供了使用纳米结构感测装置的阵列来检测和识别多种化学物种的方法。该方法涉及将未暴露于感兴趣的化学物质的纳米结构感测装置的信号与已经暴露于感兴趣的化学物质的纳米结构感测装置的信号进行比较。还公开了可以测量和减去环境因素的纳米结构感测装置阵列结构。

4. 发明授权

US08900517B2 Modification of selectivity for sensing for nanostructure sensing device arrays 有权
标题翻译：用于纳米结构感测器件阵列的感测选择性的修改
公开(公告)号：US08900517B2
公开(公告)日：2014-12-02
申请号：US11938180
申请日：2007-11-09
申请人： Jean-Christophe P. Gabriel , Philip G. Collins , George Gruner , Keith Bradley
发明人： Jean-Christophe P. Gabriel , Philip G. Collins , George Gruner , Keith Bradley
IPC分类号： G01N33/00 , G01N27/414 , G01N35/00
CPC分类号： G01N27/4146 , G01N2035/00158 , Y10S977/70 , Y10S977/701 , Y10S977/84 , Y10S977/882 , Y10S977/883 , Y10S977/902 , Y10S977/92 , Y10S977/953 , Y10S977/957 , Y10T29/49 , Y10T29/49002 , Y10T436/11
摘要： An electronic system for selectively detecting and identifying a plurality of chemical species, which comprises an array of nanostructure sensing devices, is disclosed. Within the array, there are at least two different selectivities for sensing among the nanostructure sensing devices. Methods for fabricating the electronic system are also disclosed. The methods involve modifying nanostructures within the devices to have different selectivity for sensing chemical species. Modification can involve chemical, electrochemical, and self-limiting point defect reactions. Reactants for these reactions can be supplied using a bath method or a chemical jet method. Methods for using the arrays of nanostructure sensing devices to detect and identify a plurality of chemical species are also provided. The methods involve comparing signals from nanostructure sensing devices that have not been exposed to the chemical species of interest with signals from nanostructure sensing devices that have been exposed to the chemical species of interest.
摘要翻译：公开了一种用于选择性地检测和识别包括纳米结构感测装置阵列的多种化学物质的电子系统。在阵列内，在纳米结构感测装置中有至少两种用于感测的不同选择性。还公开了用于制造电子系统的方法。这些方法包括修改装置内的纳米结构以具有感测化学物质的不同选择性。修饰可能涉及化学，电化学和自限制点缺陷反应。这些反应的反应物可以使用浴法或化学喷射法提供。还提供了使用纳米结构感测装置的阵列来检测和识别多种化学物种的方法。该方法涉及将未暴露于感兴趣的化学物质的纳米结构感测装置的信号与已经暴露于感兴趣的化学物质的纳米结构感测装置的信号进行比较。

5. 发明授权

US07312095B1 Modification of selectivity for sensing for nanostructure sensing device arrays 有权
标题翻译：用于纳米结构感测器件阵列的感测选择性的修改
公开(公告)号：US07312095B1
公开(公告)日：2007-12-25
申请号：US10099664
申请日：2002-03-15
申请人： Jean-Christophe P. Gabriel , Philip G. Collins , Keith Bradley , George Gruner
发明人： Jean-Christophe P. Gabriel , Philip G. Collins , Keith Bradley , George Gruner
IPC分类号： H01L21/00 , C12Q1/68 , G01N15/06 , G01N33/00 , G01N33/48
CPC分类号： G01N27/4146 , G01N2035/00158 , Y10S977/70 , Y10S977/701 , Y10S977/84 , Y10S977/882 , Y10S977/883 , Y10S977/902 , Y10S977/92 , Y10S977/953 , Y10S977/957 , Y10T29/49 , Y10T29/49002 , Y10T436/11
摘要： An electronic system for selectively detecting and identifying a plurality of chemical species, which comprises an array of nanostructure sensing devices, is disclosed. Within the array, there are at least two different selectivities for sensing among the nanostructure sensing devices. Methods for fabricating the electronic system are also disclosed. The methods involve modifying nanostructures within the devices to have different selectivity for sensing chemical species. Modification can involve chemical, electrochemical, and self-limiting point defect reactions. Reactants for these reactions can be supplied using a bath method or a chemical jet method. Methods for using the arrays of nanostructure sensing devices to detect and identify a plurality of chemical species are also provided. The methods involve comparing signals from nanostructure sensing devices that have not been exposed to the chemical species of interest with signals from nanostructure sensing devices that have been exposed to the chemical species of interest.
摘要翻译：公开了一种用于选择性地检测和识别包括纳米结构感测装置阵列的多种化学物质的电子系统。在阵列内，在纳米结构感测装置中有至少两种用于感测的不同选择性。还公开了用于制造电子系统的方法。这些方法包括修改装置内的纳米结构以具有感测化学物质的不同选择性。修饰可能涉及化学，电化学和自限制点缺陷反应。这些反应的反应物可以使用浴法或化学喷射法提供。还提供了使用纳米结构感测装置的阵列来检测和识别多种化学物种的方法。该方法涉及将未暴露于感兴趣的化学物质的纳米结构感测装置的信号与已经暴露于感兴趣的化学物质的纳米结构感测装置的信号进行比较。

6. 发明申请

US20110003698A1 MODIFICATION OF SELECTIVITY FOR SENSING FOR NANOSTRUCTURE SENSING DEVICE ARRAYS 有权
标题翻译：用于感应神经传感装置阵列的选择性修改
公开(公告)号：US20110003698A1
公开(公告)日：2011-01-06
申请号：US11938180
申请日：2007-11-09
申请人： Jean-Christophe P. Gabriel , Philip G. Collins , Keith Bradley , George Gruner
发明人： Jean-Christophe P. Gabriel , Philip G. Collins , Keith Bradley , George Gruner
IPC分类号： C40B30/00 , C40B60/12 , C25B1/00
CPC分类号： G01N27/4146 , G01N2035/00158 , Y10S977/70 , Y10S977/701 , Y10S977/84 , Y10S977/882 , Y10S977/883 , Y10S977/902 , Y10S977/92 , Y10S977/953 , Y10S977/957 , Y10T29/49 , Y10T29/49002 , Y10T436/11
摘要： An electronic system for selectively detecting and identifying a plurality of chemical species, which comprises an array of nanostructure sensing devices, is disclosed. Within the array, there are at least two different selectivities for sensing among the nanostructure sensing devices. Methods for fabricating the electronic system are also disclosed. The methods involve modifying nanostructures within the devices to have different selectivity for sensing chemical species. Modification can involve chemical, electrochemical, and self-limiting point defect reactions. Reactants for these reactions can be supplied using a bath method or a chemical jet method. Methods for using the arrays of nanostructure sensing devices to detect and identify a plurality of chemical species are also provided. The methods involve comparing signals from nanostructure sensing devices that have not been exposed to the chemical species of interest with signals from nanostructure sensing devices that have been exposed to the chemical species of interest.
摘要翻译：公开了一种用于选择性地检测和识别包括纳米结构感测装置阵列的多种化学物质的电子系统。在阵列内，在纳米结构感测装置中有至少两种用于感测的不同选择性。还公开了用于制造电子系统的方法。这些方法包括修改装置内的纳米结构以具有感测化学物质的不同选择性。修饰可能涉及化学，电化学和自限制点缺陷反应。这些反应的反应物可以使用浴法或化学喷射法提供。还提供了使用纳米结构感测装置的阵列来检测和识别多种化学物种的方法。该方法涉及将未暴露于感兴趣的化学物质的纳米结构感测装置的信号与已经暴露于感兴趣的化学物质的纳米结构感测装置的信号进行比较。

7. 发明授权

US06905655B2 Modification of selectivity for sensing for nanostructure device arrays 失效
标题翻译：纳米结构器件阵列感测选择性的改进
公开(公告)号：US06905655B2
公开(公告)日：2005-06-14
申请号：US10388701
申请日：2003-03-14
申请人： Jean-Christophe P. Gabriel , Philip G. Collins , Keith Bradley , George Gruner
发明人： Jean-Christophe P. Gabriel , Philip G. Collins , Keith Bradley , George Gruner
IPC分类号： B01L3/00 , C12Q20060101 , G01N15/06 , G01N21/00 , G01N27/12 , G01N31/22 , G01N33/00 , G01N33/48 , G01N35/00 , H01C7/00
CPC分类号： G01N27/127 , B01J2219/00653 , B01L3/5027 , B82Y15/00 , G01N27/126 , Y10S977/84 , Y10S977/855 , Y10S977/882 , Y10S977/92 , Y10S977/957 , Y10S977/958 , Y10T436/11
摘要： An electronic system for selectively detecting and identifying a plurality of chemical species, which comprises an array of nanostructure sensing devices, is disclosed. Within the array, there are at least two different selectivities for sensing among the nanostructure sensing devices. Methods for fabricating the electronic system are also disclosed. The methods involve modifiying nanostructures within the devices to have different selectivity for sensing chemical species. Modification can involve chemical, electrochemical, and self-limiting point defect reactions. Reactants for these reactions can be supplied using a bath method or a chemical jet method. Methods for using the arrays of nanostructure sensing devices to detect and identify a plurality of chemical species are also provided. The methods involve comparing signals from nanostructure sensing devices that have not been exposed to the chemical species of interest with signals from nanostructure sensing devices that have been exposed to the chemical species of interest. Nanostructure sensing device array structures that can measure and subtract out environmental factors are also disclosed.
摘要翻译：公开了一种用于选择性地检测和识别包括纳米结构感测装置阵列的多种化学物质的电子系统。在阵列内，在纳米结构感测装置中有至少两种用于感测的不同选择性。还公开了用于制造电子系统的方法。所述方法包括改变装置内的纳米结构以具有感测化学物质的不同选择性。修饰可能涉及化学，电化学和自限制点缺陷反应。这些反应的反应物可以使用浴法或化学喷射法提供。还提供了使用纳米结构感测装置的阵列来检测和识别多种化学物种的方法。该方法涉及将未暴露于感兴趣的化学物质的纳米结构感测装置的信号与已经暴露于感兴趣的化学物质的纳米结构感测装置的信号进行比较。还公开了可以测量和减去环境因素的纳米结构感测装置阵列结构。

8. 发明授权

US06672077B1 Hydrogen storage in nanostructure with physisorption 有权
标题翻译：具有物理吸附的纳米结构中的氢储存
公开(公告)号：US06672077B1
公开(公告)日：2004-01-06
申请号：US10020392
申请日：2001-12-11
申请人： Keith Bradley , Philip G. Collins , Jean-Christophe P. Gabriel , Young-Kyun Kwon , Seung-Hoon Jhi , George Grüner
发明人： Keith Bradley , Philip G. Collins , Jean-Christophe P. Gabriel , Young-Kyun Kwon , Seung-Hoon Jhi , George Grüner
IPC分类号： F17C1100
CPC分类号： C01B3/001 , F17C11/005 , Y02E60/321 , Y02E60/324 , Y10S977/948
摘要： A hydrogen containing nanostructure is provided, where the hydrogen is adsorbed to the nanostructure by physisorption. The nanostructure includes light elements, selected from the second and third rows of the periodic table. The nanostructure is formed as a layered network of light elements coupled with covalent sp2 bonds. The chemical composition of the nanostructure can be such that the desorption temperature of hydrogen is greater than the liquefaction temperature of nitrogen, 77 K. Further, a hydrogen storage system is provided, including a container and a nanostructured storage material within the container, wherein the nanostructured storage material includes light elements, and the nanostructured storage material is capable of adsorbing hydrogen by physisorption. The hydrogen storage system can include a liquid nitrogen based cooling system, capable of cooling the nanostructured storage material below the desorption temperature of hydrogen. Some embodiments contain a heater to control the temperature of the nanostructured storage material.
摘要翻译：提供含氢的纳米结构，其中通过物理吸附将氢吸附到纳米结构。纳米结构包括选自周期表的第二行和第三行的光元件。纳米结构形成为与共价sp 2结合的光元件的分层网络。纳米结构的化学组成可以使得氢的解吸温度大于氮的液化温度（77K）。此外，提供了一种储氢系统，其包括容器内的容器和纳米结构的储存材料，其中纳米结构储存材料包括轻元素，纳米结构储存材料能够通过物理吸附吸附氢。氢存储系统可以包括液氮冷却系统，其能够将纳米结构的储存材料冷却至低于氢的解吸温度。一些实施例包含用于控制纳米结构存储材料的温度的加热器。

9. 发明申请

US20120142158A1 Self-Aligned Nanotube Field Effect Transistor and Method of Fabricating Same 有权
标题翻译：自对准纳米管场效应晶体管及其制造方法
公开(公告)号：US20120142158A1
公开(公告)日：2012-06-07
申请号：US13368901
申请日：2012-02-08
申请人： Joerg Appenzeller , Phaedon Avouris , Kevin K. Chan , Philip G. Collins , Richard Martel , Hon-Sum Philip Wong
发明人： Joerg Appenzeller , Phaedon Avouris , Kevin K. Chan , Philip G. Collins , Richard Martel , Hon-Sum Philip Wong
IPC分类号： H01L21/336 , B82Y40/00
CPC分类号： H01L51/0516 , B82Y10/00 , H01L29/0665 , H01L29/0673 , H01L29/0676 , H01L51/0048 , H01L51/0052 , H01L51/0545 , Y10S977/842 , Y10S977/938 , Y10S977/94
摘要： A self-aligned carbon-nanotube field effect transistor semiconductor device comprises a carbon-nanotube deposited on a substrate, a source and a drain formed at a first end and a second end of the carbon-nanotube, respectively, and a gate formed substantially over a portion of the carbon-nanotube, separated from the carbon-nanotube by a dielectric film.
摘要翻译：自对准碳纳米管场效应晶体管半导体器件分别包括沉积在基板上的碳纳米管，分别形成在碳纳米管的第一端和第二端的源极和漏极，以及基本上形成的栅极碳纳米管的一部分，通过电介质膜与碳纳米管分离。

10. 发明授权

US08637374B2 Method of fabricating self-aligned nanotube field effect transistor 有权
标题翻译：制造自对准纳米管场效应晶体管的方法
公开(公告)号：US08637374B2
公开(公告)日：2014-01-28
申请号：US13368901
申请日：2012-02-08
申请人： Joerg Appenzeller , Phaedon Avouris , Kevin K. Chan , Philip G. Collins , Richard Martel , Hon-Sum Philip Wong
发明人： Joerg Appenzeller , Phaedon Avouris , Kevin K. Chan , Philip G. Collins , Richard Martel , Hon-Sum Philip Wong
IPC分类号： H01L21/336 , H01L21/44 , H01L21/302 , H01L21/461
CPC分类号： H01L51/0516 , B82Y10/00 , H01L29/0665 , H01L29/0673 , H01L29/0676 , H01L51/0048 , H01L51/0052 , H01L51/0545 , Y10S977/842 , Y10S977/938 , Y10S977/94
摘要： A self-aligned carbon-nanotube field effect transistor semiconductor device comprises a carbon-nanotube deposited on a substrate, a source and a drain formed at a first end and a second end of the carbon-nanotube, respectively, and a gate formed substantially over a portion of the carbon-nanotube, separated from the carbon-nanotube by a dielectric film.
摘要翻译：自对准碳纳米管场效应晶体管半导体器件分别包括沉积在基板上的碳纳米管，分别形成在碳纳米管的第一端和第二端的源极和漏极，以及基本上形成的栅极碳纳米管的一部分，通过电介质膜与碳纳米管分离。

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