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公开(公告)号:US12105062B2
公开(公告)日:2024-10-01
申请号:US17268551
申请日:2018-09-05
Inventor: Michael J. Bowers, II , Don A. Harris , Tadd C. Kippeny
CPC classification number: G01N30/12 , G01N30/18 , G01N30/30 , G01N2030/025 , G01N2030/128
Abstract: A system and method for utilizing a carbide-derived carbon (CDC) fiber in solid-phase micro extraction. Optically pumping the carbide-derived carbon (CDC) fiber, as compared to using thermal desorption, enhances performance of the system. CDC provides for a broad based sorbent that is insensitive to high humidity. Optical pumping may be done axially or radially on a modified gas chromatography needle. In some cases, staged, or pulsed, optical pumping is used to drive off solvent or other lower boiling compounds first and then the desorption of the remaining analytes is cleaner and the instrumentation is less likely to be overloaded.
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2.发明授权公开(公告)号:US09212200B2
公开(公告)日:2015-12-15
申请号:US13986178
申请日:2013-04-08
Inventor: Idan Mandelbaum , Tadd C. Kippeny
Abstract: A nanostructure and method for assembly thereof are disclosed. An exemplary nanostructure includes a photocatalytic nanoparticle; a first tier of metal nanoparticles, each metal nanoparticle of the first tier being linked about the photocatalytic nanoparticle; and a second tier of metal nanoparticles, each metal nanoparticle of the second tier being linked to one of the metal nanoparticles of the first tier and located a distance from the photocatalytic nanoparticle greater than a distance between a metal nanoparticle of the first tier and the photocatalytic nanoparticle.
Abstract translation: 公开了纳米结构及其组装方法。 示例性纳米结构包括光催化纳米颗粒; 第一层金属纳米颗粒,第一层的每个金属纳米颗粒围绕光催化纳米颗粒连接; 和第二层金属纳米颗粒,第二层的每个金属纳米颗粒连接到第一层的金属纳米颗粒之一,并且距离光催化纳米颗粒一定距离大于第一层金属纳米颗粒与光催化剂之间的距离 纳米颗粒。
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3.发明申请公开(公告)号:US20140135516A1
公开(公告)日:2014-05-15
申请号:US13986178
申请日:2013-04-08
Inventor: Idan Mandelbaum , Tadd C. Kippeny
IPC: C07F19/00
Abstract: A nanostructure and method for assembly thereof are disclosed. An exemplary nanostructure includes a photocatalytic nanoparticle; a first tier of metal nanoparticles, each metal nanoparticle of the first tier being linked about the photocatalytic nanoparticle; and a second tier of metal nanoparticles, each metal nanoparticle of the second tier being linked to one of the metal nanoparticles of the first tier and located a distance from the photocatalytic nanoparticle greater than a distance between a metal nanoparticle of the first tier and the photocatalytic nanoparticle.
Abstract translation: 公开了纳米结构及其组装方法。 示例性纳米结构包括光催化纳米颗粒; 第一层金属纳米颗粒,第一层的每个金属纳米颗粒围绕光催化纳米颗粒连接; 和第二层金属纳米颗粒,第二层的每个金属纳米颗粒连接到第一层的金属纳米颗粒之一,并且距离光催化纳米颗粒一定距离大于第一层金属纳米颗粒与光催化剂之间的距离 纳米颗粒。
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公开(公告)号:US10549259B2
公开(公告)日:2020-02-04
申请号:US15690358
申请日:2017-08-30
Inventor: Louise C. Sengupta , Pierre-Alain S. Auroux , Christopher S. Badorrek , Michael J. Bowers, II , Myeongseob Kim , John E. King , Tadd C. Kippeny , Laura A. Swafford
IPC: B01D53/02 , B01J20/20 , C01B32/318 , B01J20/34 , B01D53/04
Abstract: In the method for scrubbing a chemical from a medium, wherein the improvement comprises the steps of using a carbide derived carbon to adsorb the chemical which may later be released by heating. The carbide derived carbon may be a powder, a fiber, a solid foam, a mesh, or other solid form. The carbide derived carbon can adsorb a chemical in the gaseous, liquid, particulate, or aerosol phase.
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公开(公告)号:US10578525B2
公开(公告)日:2020-03-03
申请号:US15667667
申请日:2017-08-03
Inventor: Michael J. Bowers, II , John E. King , Tadd C. Kippeny
Abstract: A method for detection and identification of a chemical using a preconcentrator to collect a sample of the chemical, process said sample of the chemical, and introduce said processed chemical into a chemical analysis instrument for the detection of and identification of the chemical. A system for detecting and identifying a chemical comprising a preconcentrator having at least dual concentrating elements.
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Patent Agency Ranking
6.发明申请公开(公告)号:US20140042376A1
公开(公告)日:2014-02-13
申请号:US13959130
申请日:2013-08-05
Inventor: Idan Mandelbaum , Tadd C. Kippeny
IPC: G02F1/00
CPC classification number: H01B1/02 , B22F1/0018 , B22F1/0059 , B22F1/0096 , B22F1/02 , B22F2998/00 , B22F2999/00 , B82Y10/00 , B82Y30/00 , B82Y40/00 , G02F1/0018 , H01L29/0665 , Y10S977/774 , Y10S977/882 , Y10S977/948 , B22F2301/052 , B22F2301/255 , B22F2301/10 , B22F2301/20 , B22F2302/256
Abstract: A nanostructure and method for assembly thereof are disclosed. The nanostructure includes a gain medium nanoparticle; an output coupler nanoparticle being discrete from and linked to the gain medium nanoparticle; and a plurality of metal nanoparticles being linked about the gain medium nanoparticle, wherein the gain medium nanoparticle and the output coupler nanoparticle are included in the nanostructure in a one to one ratio.
Abstract translation: 公开了纳米结构及其组装方法。 纳米结构包括增益介质纳米颗粒; 输出耦合器纳米颗粒从增益介质纳米颗粒离散并连接到增益介质纳米颗粒上; 并且多个金属纳米颗粒围绕增益介质纳米颗粒连接,其中增益介质纳米颗粒和输出成色剂纳米颗粒以一比一的比例包含在纳米结构中。
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公开(公告)号:US09996707B2
公开(公告)日:2018-06-12
申请号:US15223181
申请日:2016-07-29
Inventor: Louise C. Sengupta , Pierre-Alain S. Auroux , Don A. Harris , Myeongseob Kim , Tadd C. Kippeny , Somnath Sengupta , Igor I. Smolyaninov , Laura A. Swafford , Chen J. Zhang
CPC classification number: G06F21/70 , C01B33/02 , G06F21/75 , G06F2221/2143
Abstract: The system and method for destroying compromised objects, including electronic devices. The system and method utilizes a barrier separating two reagents that can be rapidly mixed to form a base when desired. The system and method have a barrier configured to be triggered remotely. The barrier comprises an aluminum foil layer.
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8.发明申请公开(公告)号:US20160155527A1
公开(公告)日:2016-06-02
申请号:US15016711
申请日:2016-02-05
Inventor: Idan Mandelbaum , Tadd C. Kippeny
CPC classification number: H01B1/02 , B22F1/0018 , B22F1/0059 , B22F1/0096 , B22F1/02 , B22F2998/00 , B22F2999/00 , B82Y10/00 , B82Y30/00 , B82Y40/00 , G02F1/0018 , H01L29/0665 , Y10S977/774 , Y10S977/882 , Y10S977/948 , B22F2301/052 , B22F2301/255 , B22F2301/10 , B22F2301/20 , B22F2302/256
Abstract: A nanostructure and method for assembly thereof are disclosed. The nanostructure includes a gain medium nanoparticle; an output coupler nanoparticle being discrete from and linked to the gain medium nanoparticle; and a plurality of metal nanoparticles being linked about the gain medium nanoparticle, wherein the gain medium nanoparticle and the output coupler nanoparticle are included in the nanostructure in a one to one ratio.
Abstract translation: 公开了纳米结构及其组装方法。 纳米结构包括增益介质纳米颗粒; 输出耦合器纳米颗粒从增益介质纳米颗粒离散并连接到增益介质纳米颗粒上; 并且多个金属纳米颗粒围绕增益介质纳米颗粒连接,其中增益介质纳米颗粒和输出成色剂纳米颗粒以一比一的比例包含在纳米结构中。
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9.发明授权公开(公告)号:US09285610B2
公开(公告)日:2016-03-15
申请号:US13959130
申请日:2013-08-05
Inventor: Idan Mandelbaum , Tadd C. Kippeny
CPC classification number: H01B1/02 , B22F1/0018 , B22F1/0059 , B22F1/0096 , B22F1/02 , B22F2998/00 , B22F2999/00 , B82Y10/00 , B82Y30/00 , B82Y40/00 , G02F1/0018 , H01L29/0665 , Y10S977/774 , Y10S977/882 , Y10S977/948 , B22F2301/052 , B22F2301/255 , B22F2301/10 , B22F2301/20 , B22F2302/256
Abstract: A nanostructure and method for assembly thereof are disclosed. The nanostructure includes a gain medium nanoparticle; an output coupler nanoparticle being discrete from and linked to the gain medium nanoparticle; and a plurality of metal nanoparticles being linked about the gain medium nanoparticle, wherein the gain medium nanoparticle and the output coupler nanoparticle are included in the nanostructure in a one to one ratio.
Abstract translation: 公开了纳米结构及其组装方法。 纳米结构包括增益介质纳米颗粒; 输出耦合器纳米颗粒从增益介质纳米颗粒离散并连接到增益介质纳米颗粒上; 并且多个金属纳米颗粒围绕增益介质纳米颗粒连接,其中增益介质纳米颗粒和输出成色剂纳米颗粒以一比一的比例包含在纳米结构中。
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10.发明授权Trace analyte extraction using adsorptive carbide-derived nanoporous carbon powders 有权使用吸附碳化物衍生的纳米多孔碳粉进行痕量分析物提取公开(公告)号:US09103804B2
公开(公告)日:2015-08-11
申请号:US13826939
申请日:2013-03-14
Inventor: Christopher S. Badorrek , Robert A. Burton , Tadd C. Kippeny , Louise C. Sengupta , Laura A. Swafford
CPC classification number: G01N30/00 , B01J20/02 , B01J20/20 , B01J20/28004 , B01J20/28066 , B01J20/28078 , G01N1/405 , G01N30/7233 , G01N2030/009
Abstract: In the method of latent print analysis, wherein the improvement comprises using an ultra-fine, nanoporous carbon material as an adsorptive powder to identify trace chemicals found within oils of a print.
Abstract translation: 在潜印分析方法中,其改进包括使用超细纳米多孔碳材料作为吸附性粉末来鉴定在印刷油中发现的痕量化学物质。
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