专利快速检索-快速检索全球专利，免费商用专利数据库-IPRDB

1. 发明授权

US09091594B2 Chemical mapping using thermal microscopy at the micro and nano scales 有权
标题翻译：在微尺度和纳米尺度下使用热显微镜进行化学测绘
公开(公告)号：US09091594B2
公开(公告)日：2015-07-28
申请号：US13684535
申请日：2012-11-25
申请人： Robert Furstenberg , Chris Kendziora , Nabil D. Bassim , Robert Andrew McGill , Viet K. Nguyen
发明人： Robert Furstenberg , Chris Kendziora , Nabil D. Bassim , Robert Andrew McGill , Viet K. Nguyen
IPC分类号： G01J5/02 , G01J3/28 , G01J3/02 , G01J5/60 , G02B21/00 , G01N21/17 , G01N21/3563 , G01N21/41 , G01N21/45 , G01N21/39
CPC分类号： G01J3/2823 , G01J3/02 , G01J3/0202 , G01J3/443 , G01J3/45 , G01J5/60 , G01J2003/2826 , G01N21/171 , G01N21/3563 , G01N21/41 , G01N21/45 , G01N2021/1714 , G01N2021/1725 , G01N2021/1731 , G01N2021/393 , G02B21/0028 , G02B21/008
摘要： A non-destructive method for chemical imaging with ˜1 nm to 10 μm spatial resolution (depending on the type of heat source) without sample preparation and in a non-contact manner. In one embodiment, a sample undergoes photo-thermal heating using an IR laser and the resulting increase in thermal emissions is measured with either an IR detector or a laser probe having a visible laser reflected from the sample. In another embodiment, the infrared laser is replaced with a focused electron or ion source while the thermal emission is collected in the same manner as with the infrared heating. The achievable spatial resolution of this embodiment is in the 1-50 nm range.
摘要翻译：用于化学成像的非破坏性方法，具有〜1 nm至10μm的空间分辨率（取决于热源的类型），无需样品制备和非接触式。在一个实施例中，样品使用IR激光进行光热加热，并且用具有从样品反射的可见激光的IR检测器或激光探针测量所得到的热发射增加。在另一个实施例中，红外激光被聚焦的电子或离子源代替，同时以与红外线加热相同的方式收集热发射。该实施例的可实现的空间分辨率在1-50nm范围内。

2. 发明申请

US20130134310A1 CHEMICAL MAPPING USING THERMAL MICROSCOPY AT THE MICRO AND NANO SCALES 有权
标题翻译：在微米和纳米尺度上使用热显微镜进行化学测绘
公开(公告)号：US20130134310A1
公开(公告)日：2013-05-30
申请号：US13684535
申请日：2012-11-25
申请人： Robert Furstenberg , Chris Kendziora , Nabil D. Bassim , Robert Andrew McGill , Viet K. Nguyen
发明人： Robert Furstenberg , Chris Kendziora , Nabil D. Bassim , Robert Andrew McGill , Viet K. Nguyen
IPC分类号： G01J3/28 , G01J3/02
CPC分类号： G01J3/2823 , G01J3/02 , G01J3/0202 , G01J3/443 , G01J3/45 , G01J5/60 , G01J2003/2826 , G01N21/171 , G01N21/3563 , G01N21/41 , G01N21/45 , G01N2021/1714 , G01N2021/1725 , G01N2021/1731 , G01N2021/393 , G02B21/0028 , G02B21/008
摘要： A non-destructive method for chemical imaging with ˜1 nm to 10 μm spatial resolution (depending on the type of heat source) without sample preparation and in a non-contact manner. In one embodiment, a sample undergoes photo-thermal heating using an IR laser and the resulting increase in thermal emissions is measured with either an IR detector or a laser probe having a visible laser reflected from the sample. In another embodiment, the infrared laser is replaced with a focused electron or ion source while the thermal emission is collected in the same manner as with the infrared heating. The achievable spatial resolution of this embodiment is in the 1-50 nm range.
摘要翻译：用于化学成像的非破坏性方法，具有〜1 nm至10 mum的空间分辨率（取决于热源的类型），无需样品制备和非接触式。在一个实施例中，样品使用IR激光进行光热加热，并且用具有从样品反射的可见激光的IR检测器或激光探针测量所得到的热发射增加。在另一个实施例中，红外激光被聚焦的电子或离子源代替，同时以与红外线加热相同的方式收集热发射。该实施例的可实现的空间分辨率在1-50nm范围内。

3. 发明申请

US20140260535A1 GAS CHROMATOGRAPHIC "IN COLUMN" SPECTROSCOPIC ANALYSIS 有权
标题翻译：气相色谱“柱”光谱分析
公开(公告)号：US20140260535A1
公开(公告)日：2014-09-18
申请号：US14208088
申请日：2014-03-13
申请人： R. Andrew McGill , Robert Furstenberg , Viet K. Nguyen , Chris Kendziora , Michael Papantonakis , Todd H. Stievater
发明人： R. Andrew McGill , Robert Furstenberg , Viet K. Nguyen , Chris Kendziora , Michael Papantonakis , Todd H. Stievater
IPC分类号： G01N30/72
CPC分类号： G01N30/02 , G01N21/0332 , G01N21/3504 , G01N21/39 , G01N21/552 , G01N21/658 , G01N21/7746 , G01N30/48 , G01N30/6034 , G01N30/6082 , G01N30/74 , G01N2021/4761 , G01N2030/025
摘要： A chemical detector for rapid, simultaneous detection of multiple chemicals including chemical warfare agents, toxic industrial chemicals, and explosives having one or more gas chromatography columns each with a chemosorbent or a chemo-reactive stationary phase and an infrared-transparent base, a bright infrared light source, a mechanism to direct the light source to any point along any of the columns, and an infrared sensor. Another disclosed detector has one or more gas chromatography columns each on the surface of a substrate having at least one infrared-transparent waveguide pattern, a bright infrared light source, and at least one ring resonator for each column, where each ring resonator is coated with a chemosorbent or a chemo-reactive stationary phase, and where each ring resonator spectroscopically probes the stationary phase. Also disclosed are the related methods for chemical detection.
摘要翻译：一种用于快速，同时检测多种化学品的化学检测器，包括化学战剂，有毒工业化学品和具有一个或多个气相色谱柱的爆炸物，每个气相色谱柱均具有化学吸附剂或化学反应性固定相和红外线透明底物，光源，将光源引导到沿着任何列的任何点的机构以及红外传感器。另一种公开的检测器具有一个或多个气相色谱柱，每个气相色谱柱各自在基板的表面上，其具有至少一个红外线透明波导图案，亮红外光源和每列的至少一个环形谐振器，其中每个环形谐振器涂覆有化学吸附剂或化学反应性固定相，并且其中每个环状共振器光谱地探测固定相。还公开了用于化学检测的相关方法。

4. 发明授权

US09599567B2 Gas chromatographic “in column” spectroscopic analysis 有权
公开(公告)号：US09599567B2
公开(公告)日：2017-03-21
申请号：US14208088
申请日：2014-03-13
申请人： R. Andrew McGill , Robert Furstenberg , Viet K. Nguyen , Chris Kendziora , Michael Papantonakis , Todd H. Stievater
发明人： R. Andrew McGill , Robert Furstenberg , Viet K. Nguyen , Chris Kendziora , Michael Papantonakis , Todd H. Stievater
IPC分类号： G01N30/72 , G01N21/77 , G01N30/74 , G01N21/552 , G01N30/60 , G01N21/3504 , G01N21/03 , G01N21/65
CPC分类号： G01N30/02 , G01N21/0332 , G01N21/3504 , G01N21/39 , G01N21/552 , G01N21/658 , G01N21/7746 , G01N30/48 , G01N30/6034 , G01N30/6082 , G01N30/74 , G01N2021/4761 , G01N2030/025
摘要： A chemical detector for rapid, simultaneous detection of multiple chemicals including chemical warfare agents, toxic industrial chemicals, and explosives having one or more gas chromatography columns each with a chemosorbent or a chemo-reactive stationary phase and an infrared-transparent base, a bright infrared light source, a mechanism to direct the light source to any point along any of the columns, and an infrared sensor. Another disclosed detector has one or more gas chromatography columns each on the surface of a substrate having at least one infrared-transparent waveguide pattern, a bright infrared light source, and at least one ring resonator for each column, where each ring resonator is coated with a chemosorbent or a chemo-reactive stationary phase, and where each ring resonator spectroscopically probes the stationary phase. Also disclosed are the related methods for chemical detection.

5. 发明申请

US20160011049A1 CHEMICAL MAPPING USING THERMAL MICROSCOPY AT THE MICRO AND NANO SCALES 有权
标题翻译：在微米和纳米尺度上使用热显微镜进行化学测绘
公开(公告)号：US20160011049A1
公开(公告)日：2016-01-14
申请号：US14748430
申请日：2015-06-24
申请人： Robert Furstenberg , Chris Kendziora , Michael Papantonakis , R. Andrew McGill , Viet K. Nguyen , Graham K. Hubler
发明人： Robert Furstenberg , Chris Kendziora , Michael Papantonakis , R. Andrew McGill , Viet K. Nguyen , Graham K. Hubler
IPC分类号： G01J3/28 , G01J3/443 , G01J3/02 , G01J3/45
CPC分类号： G01J3/2823 , G01J3/02 , G01J3/0202 , G01J3/443 , G01J3/45 , G01J5/60 , G01J2003/2826 , G01N21/171 , G01N21/3563 , G01N21/41 , G01N21/45 , G01N2021/1714 , G01N2021/1725 , G01N2021/1731 , G01N2021/393 , G02B21/0028 , G02B21/008
摘要： A non-destructive method for chemical imaging with ˜1 nm to 10 μm spatial resolution (depending on the type of heat source) without sample preparation and in a non-contact manner. In one embodiment, a sample undergoes photo-thermal heating using an IR laser and the resulting increase in thermal emissions is measured with either an IR detector or a laser probe having a visible laser reflected from the sample. In another embodiment, the infrared laser is replaced with a focused electron or ion source while the thermal emission is collected in the same manner as with the infrared heating. The achievable spatial resolution of this embodiment is in the 1-50 nm range.
摘要翻译：用于化学成像的非破坏性方法，具有〜1 nm至10μm的空间分辨率（取决于热源的类型），无需样品制备和非接触式。在一个实施例中，样品使用IR激光进行光热加热，并且用具有从样品反射的可见激光的IR检测器或激光探针测量所得到的热发射增加。在另一个实施例中，红外激光被聚焦的电子或离子源代替，同时以与红外线加热相同的方式收集热发射。该实施例的可实现的空间分辨率在1-50nm范围内。

6. 发明授权

US09841324B2 Chemical mapping using thermal microscopy at the micro and nano scales 有权
公开(公告)号：US09841324B2
公开(公告)日：2017-12-12
申请号：US14748430
申请日：2015-06-24
申请人： Robert Furstenberg , Chris Kendziora , R. Andrew McGill , Viet K. Nguyen
发明人： Robert Furstenberg , Chris Kendziora , R. Andrew McGill , Viet K. Nguyen
IPC分类号： G01J3/28 , G01J3/02 , G01J5/60 , G02B21/00 , G01N21/17 , G01J3/443 , G01J3/45 , G01N21/3563 , G01N21/41 , G01N21/45 , G01N21/39
CPC分类号： G01J3/2823 , G01J3/02 , G01J3/0202 , G01J3/443 , G01J3/45 , G01J5/60 , G01J2003/2826 , G01N21/171 , G01N21/3563 , G01N21/41 , G01N21/45 , G01N2021/1714 , G01N2021/1725 , G01N2021/1731 , G01N2021/393 , G02B21/0028 , G02B21/008
摘要： A non-destructive method for chemical imaging with ˜1 nm to 10 μm spatial resolution (depending on the type of heat source) without sample preparation and in a non-contact manner. In one embodiment, a sample undergoes photo-thermal heating using an IR laser and the resulting increase in thermal emissions is measured with either an IR detector or a laser probe having a visible laser reflected from the sample. In another embodiment, the infrared laser is replaced with a focused electron or ion source while the thermal emission is collected in the same manner as with the infrared heating. The achievable spatial resolution of this embodiment is in the 1-50 nm range.

7. 发明授权

US08421018B2 Detection of chemicals with infrared light 有权
标题翻译：用红外线检测化学品
公开(公告)号：US08421018B2
公开(公告)日：2013-04-16
申请号：US13488593
申请日：2012-06-05
申请人： Robert Andrew McGill , Chris Kendziora , Robert Furstenberg , Michael Papantonakis , James S Horwitz , Graham K Hubler
发明人： Robert Andrew McGill , Chris Kendziora , Robert Furstenberg , Michael Papantonakis , James S Horwitz , Graham K Hubler
IPC分类号： G01N21/00
CPC分类号： G01N21/71 , G01N21/718
摘要： The present invention is directed to a method for non-contact or stand off chemical detection by selectively exciting one or more analytes of interest using an IR source tuned to at least one specific absorption band without significantly decomposing the analyte and determining if the analyte is present by comparing emitted photons with an IR detector signal made before and during or shortly after exciting the analyte. Another embodiment provides a method for non-contact or stand off chemical detection by selectively exciting one or more analytes of interest using an IR source tuned to at least one specific absorption band without significantly decomposing the analyte, wherein the analyte is excited sufficiently to generate a vapor plume, and wherein the plume is examined to detect the presence of the analyte. Additionally, the present invention provides for a system for non-contact or stand off chemical detection.
摘要翻译：本发明涉及一种用于非接触或脱离化学检测的方法，其通过使用调谐到至少一个特定吸收带的IR源选择性地激发一种或多种目的分析物而不显着分解分析物并确定分析物是否存在通过将发射的光子与在激发分析物之前和之后或之后不久的IR检测器信号进行比较。另一个实施方案提供了通过使用调节至少一个特定吸收带的IR源选择性地激发一种或多种感兴趣的分析物而不显着分解分析物的方法，用于非接触或脱离化学检测的方法，其中分析物被充分激发以产生蒸气羽流，并且其中检查羽流以检测分析物的存在。另外，本发明提供了用于非接触或脱离化学检测的系统。

8. 发明授权

US08222604B2 Detection of chemicals with infrared light 有权
公开(公告)号：US08222604B2
公开(公告)日：2012-07-17
申请号：US13330728
申请日：2011-12-20
申请人： R Andrew McGill , Chris Kendziora , Robert Furstenberg , Michael Papantonakis , James S Horwitz , Graham K Hubler
发明人： R Andrew McGill , Chris Kendziora , Robert Furstenberg , Michael Papantonakis , James S Horwitz , Graham K Hubler
IPC分类号： G01N21/00
CPC分类号： G01N21/71 , G01N21/718
摘要： The present invention is directed to a method for non-contact or stand off chemical detection by selectively exciting one or more analytes of interest using an IR source tuned to at least one specific absorption band without significantly decomposing the analyte and determining if the analyte is present by comparing emitted photons with an IR detector signal made before and during or shortly after exciting the analyte. Another embodiment provides a method for non-contact or stand off chemical detection by selectively exciting one or more analytes of interest using an IR source tuned to at least one specific absorption band without significantly decomposing the analyte, wherein the analyte is excited sufficiently to generate a vapor plume, and wherein the plume is examined to detect the presence of the analyte. Additionally, the present invention provides for a system for non-contact or stand off chemical detection.

9. 发明申请

US20100044570A1 DETECTION OF CHEMICALS WITH INFRARED LIGHT 有权
标题翻译：用红外线检测化学品
公开(公告)号：US20100044570A1
公开(公告)日：2010-02-25
申请号：US12255103
申请日：2008-10-21
申请人： R. Andrew McGill , Chris Kendziora , Robert Furstenberg , Michael Papantonakis , James S. Horwitz , Graham K. Hubler
发明人： R. Andrew McGill , Chris Kendziora , Robert Furstenberg , Michael Papantonakis , James S. Horwitz , Graham K. Hubler
IPC分类号： G01N21/63 , G01N21/84
CPC分类号： G01N21/71 , G01N21/718
摘要： The present invention is generally directed to a method for non-contact or stand off chemical detection that may be eye-safe by selectively exciting one ore more analytes of interest using an IR source tuned to at least one specific absorption band without significantly decomposing the analyte and determining if the analyte is present by comparing emitted photons with an IR detector signal made before and during or shortly after exciting the analyte. Another embodiment of the present invention provides a method for non-contact or stand off chemical detection that may be eye-safe by selectively exciting one or more analytes of interest using an IR source tuned to at least one specific absorption band without significantly decomposing the analyte, wherein the analyte is excited sufficiently to generate a vapor plume, and wherein the plume is examined to detect the presence of the analyte. The analyte of interest may be an explosive, an additive to an explosive, a drug, a chemical warfare agent, a biochemical, or a biological warfare agent. Additionally, the present invention provides for a system for non-contact or stand off chemical detection that may be eye-safe.
摘要翻译：本发明一般涉及一种用于非接触或脱离化学检测的方法，其可以通过使用调谐到至少一个特定吸收带的IR源选择性地激发一个或多个感兴趣的一分子，而不显着分解分析物以及通过将发射的光子与在激发分析物之前和期间或之后或之后制成的IR检测器信号进行比较来确定分析物是否存在。本发明的另一个实施方案提供了一种用于非接触或脱离化学检测的方法，其可以通过使用调谐到至少一个特定吸收带的IR源选择性地激发一种或多种感兴趣的分析物，而不显着分解分析物，其中分析物被充分激发以产生蒸气羽流，并且其中检查羽流以检测分析物的存在。感兴趣的分析物可能是爆炸物，爆炸物的添加剂，药物，化学战剂，生物化学或生物战剂。另外，本发明提供了可以是眼睛安全的用于非接触或脱离化学检测的系统。

10. 发明授权

US08421017B2 Analyte detection with infrared light 有权
标题翻译：红外光检测分析物
公开(公告)号：US08421017B2
公开(公告)日：2013-04-16
申请号：US13107831
申请日：2011-05-13
申请人： R Andrew McGill , Graham K Hubler , Michael Papantonakis , James S Horwitz , Chris Kendziora , Robert Furstenberg
发明人： R Andrew McGill , Graham K Hubler , Michael Papantonakis , James S Horwitz , Chris Kendziora , Robert Furstenberg
IPC分类号： G01N21/00
CPC分类号： G01N21/71 , G01N21/64 , G01N21/658 , G01N21/718
摘要： A method for non-contact analyte detection by selectively exciting one or more analytes of interest using an IR source optionally operated to produce pulses of light and tuned to at least one specific absorption band without significantly decomposing organic analytes and determining if the analyte is present by comparing emitted photons with an IR detector signal collected one or more times before, during, or after, exciting the analyte. Another embodiment of the present invention provides a method for non-contact analyte detection by selectively exciting analytes of interest using one or more IR sources that are optionally operated to produce pulses of light and tuned to at least one specific wavelength without significantly decomposing organic analytes, wherein the analyte is excited sufficiently to increase the amount of analyte in the gas phase, and wherein the content of the gas is examined to detect the presence of the analyte.
摘要翻译：一种通过选择性地激发一种或多种感兴趣的分析物，使用任选地操作以产生光脉冲并调谐到至少一个特定吸收带而不显着分解有机分析物并确定分析物是否存在的方法，用于非接触分析物检测的方法将发射的光子与在激发分析物之前，期间或之后收集一次或多次的IR检测器信号进行比较。本发明的另一个实施方案提供了一种通过使用一个或多个IR光源选择性激发感兴趣的分析物来进行非接触分析物检测的方法，所述IR光源任选地被操作以产生光脉冲并调谐到至少一个特定波长而不显着分解有机分析物，其中分析物被充分激发以增加气相中的分析物的量，并且其中检查气体的含量以检测分析物的存在。

你已经成功收藏专利！

检索式保存成功!

IPRDB

热门服务

关于我们

友情链接

联系方式