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公开(公告)号:US20150107890A1
公开(公告)日:2015-04-23
申请号:US14472850
申请日:2014-08-29
Applicant: Nanocomp Technologies, Inc.
Inventor: Jennifer Mann , David S. Lashmore , Brian White , Peter L. Antoinette
CPC classification number: H01B1/04 , H01B11/06 , H01B13/0162 , H05K9/009 , H05K9/0098 , Y10T29/49826 , Y10T428/30
Abstract: A cable having a conducting member made from a nanostructure-based material, and a shielding layer made of nanostructure-based material. The shielding layer can be circumferentially situated about the conducting member so as to enhance conductivity along the conducting member. A coupling mechanism may be situated between the shielding layer and the conducting member so as to secure the shielding layer in its position on the conducting member. A method of making the cable is also disclosed.
Abstract translation: 具有由纳米结构材料制成的导电部件的电缆和由纳米结构材料制成的屏蔽层。 屏蔽层可围绕导电构件周向设置,以便增强导电构件的导电性。 耦合机构可以位于屏蔽层和导电构件之间,以便将屏蔽层固定在导电构件上的位置。 还公开了制造电缆的方法。
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公开(公告)号:US11279836B2
公开(公告)日:2022-03-22
申请号:US15401507
申请日:2017-01-09
Applicant: Nanocomp Technologies, Inc.
Inventor: Peter Antoinette , Mark Schauer , Brian White , Meghann White , Mark A. Banash , David Gailus
Abstract: An intumescent nanostructured material for thermal protection comprising a member including a plurality of nanostructured materials, and an intumescent material associated with the member and configured to react in the presence of a heat source to form a foam for thermally insulating the member from the heat source. The member may be a non-woven sheet, a woven sheet, a yarn, or a network, and may be configured to conduct thermal energy away from a heat source. A solution comprising a plurality of nanostructured materials, an intumescent material, and a solvent, wherein the solution has a viscosity suitable for coating or spraying onto a surface of a substrate. The solution may have a viscosity of about 3000 centipoise to about 6000 centipoise, and possibly less than about 1000 centipoise. The solution, when dried on the substrate, may form a thermally-protective coating on the substrate.
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公开(公告)号:US10581082B2
公开(公告)日:2020-03-03
申请号:US15351912
申请日:2016-11-15
Applicant: Nanocomp Technologies, Inc.
Inventor: Mark W. Schauer , Eitan Zeira , David Gailus , Brian White
IPC: H01M4/62 , H01M4/66 , H01M10/0525 , H01G11/24 , H01G11/28 , H01G11/34 , H01G11/36 , H01G11/38 , H01G11/52 , H01G11/68 , H01M4/04 , H01M4/1393
Abstract: Provided herein are products and methods for making structures having a body defined by a carbon nanotube (CNT) pulp network having a long-range connectivity exceeding a percolation threshold of the structure to permit electron transport throughout the structure, an active material dispersed within the body, and a binder material binding the active material to the CNT pulp network within the body.
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公开(公告)号:US20180194950A1
公开(公告)日:2018-07-12
申请号:US15401507
申请日:2017-01-09
Applicant: Nanocomp Technologies, Inc.
Inventor: Peter Antoinette , Mark Schauer , Brian White , Meghann White , Mark A. Banash , David Gailus
Abstract: An intumescent nanostructured material for thermal protection comprising a member including a plurality of nanostructured materials, and an intumescent material associated with the member and configured to react in the presence of a heat source to form a foam for thermally insulating the member from the heat source. The member may be a non-woven sheet, a woven sheet, a yarn, or a network, and may be configured to conduct thermal energy away from a heat source. A solution comprising a plurality of nanostructured materials, an intumescent material, and a solvent, wherein the solution has a viscosity suitable for coating or spraying onto a surface of a substrate. The solution may have a viscosity of about 3000 centipoise to about 6000 centipoise, and possibly less than about 1000 centipoise. The solution, when dried on the substrate, may form a thermally-protective coating on the substrate.
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Patent Agency Ranking
公开(公告)号:US09396829B2
公开(公告)日:2016-07-19
申请号:US14472850
申请日:2014-08-29
Applicant: Nanocomp Technologies, Inc.
Inventor: Jennifer Mann , David S. Lashmore , Brian White , Peter L. Antoinette
IPC: H01B7/36 , H01B1/04 , H01B11/06 , H05K9/00 , H01B13/016
CPC classification number: H01B1/04 , H01B11/06 , H01B13/0162 , H05K9/009 , H05K9/0098 , Y10T29/49826 , Y10T428/30
Abstract: A cable having a conducting member made from a nanostructure-based material, and a shielding layer made of nanostructure-based material. The shielding layer can be circumferentially situated about the conducting member so as to enhance conductivity along the conducting member. A coupling mechanism may be situated between the shielding layer and the conducting member so as to secure the shielding layer in its position on the conducting member. A method of making the cable is also disclosed.
Abstract translation: 具有由纳米结构材料制成的导电部件的电缆和由纳米结构材料制成的屏蔽层。 屏蔽层可围绕导电构件周向设置,以便增强导电构件的导电性。 耦合机构可以位于屏蔽层和导电构件之间,以便将屏蔽层固定在导电构件上的位置。 还公开了制造电缆的方法。
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公开(公告)号:US20180138514A1
公开(公告)日:2018-05-17
申请号:US15351912
申请日:2016-11-15
Applicant: Nanocomp Technologies, Inc.
Inventor: Mark W. Schauer , Eitan Zeira , David Gailus , Brian White
IPC: H01M4/66 , H01M4/62 , H01M10/0525 , H01M4/04 , H01M4/1393 , H01G11/36 , H01G11/38 , H01G11/28 , H01G11/34 , H01G11/24 , H01G11/68 , H01G11/52
Abstract: Provided herein are products and methods for making structures having a body defined by a carbon nanotube (CNT) pulp network having a long-range connectivity exceeding a percolation threshold of the structure to permit electron transport throughout the structure, an active material dispersed within the body, and a binder material binding the active material to the CNT pulp network within the body.
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公开(公告)号:US20200161661A1
公开(公告)日:2020-05-21
申请号:US16747618
申请日:2020-01-21
Applicant: Nanocomp Technologies, Inc.
Inventor: Mark W. Schauer , Eitan Zeira , David Gailus , Brian White
IPC: H01M4/66 , H01M10/0525 , H01M4/62 , H01M4/1393 , H01M4/04 , H01G11/68 , H01G11/52 , H01G11/38 , H01G11/36 , H01G11/34 , H01G11/24 , H01G11/70 , H01M4/13 , H01M4/38 , H01M4/1395 , H01M10/052 , H01M4/139 , H01G11/50 , H01M4/134 , H01G11/86
Abstract: Provided herein are products and methods for making structures having a body defined by a carbon nanotube (CNT) pulp network having a long-range connectivity exceeding a percolation threshold of the structure to permit electron transport throughout the structure, an active material dispersed within the body, and a binder material binding the active material to the CNT pulp network within the body.
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公开(公告)号:US11387460B2
公开(公告)日:2022-07-12
申请号:US16747618
申请日:2020-01-21
Applicant: Nanocomp Technologies, Inc.
Inventor: Mark W. Schauer , Eitan Zeira , David Gailus , Brian White
IPC: H01M4/66 , H01G11/86 , H01M4/04 , H01M4/134 , H01G11/50 , H01M4/139 , H01M10/052 , H01M4/1395 , H01M4/38 , H01M4/13 , H01G11/70 , H01G11/24 , H01G11/34 , H01G11/36 , H01G11/38 , H01G11/52 , H01G11/68 , H01M4/1393 , H01M4/62 , H01M10/0525 , H01M4/1391 , H01M4/36 , H01M4/131 , H01G11/46 , H01M4/505 , H01M4/58 , H01M4/1397 , H01M4/525 , H01M4/136 , H01G11/28
Abstract: Provided herein are products and methods for making structures having a body defined by a carbon nanotube (CNT) pulp network having a long-range connectivity exceeding a percolation threshold of the structure to permit electron transport throughout the structure, an active material dispersed within the body, and a binder material binding the active material to the CNT pulp network within the body.
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公开(公告)号:US20160086695A1
公开(公告)日:2016-03-24
申请号:US14955575
申请日:2015-12-01
Applicant: Nanocomp Technologies, Inc.
Inventor: Jennifer Mann , David S. Lashmore , Brian White , Peter L. Antoinette
IPC: H01B13/00
CPC classification number: H01B13/0016 , H01B1/24 , H01R4/58
Abstract: A conductive adapter for carrying relatively high current from a source to an external circuit without degradation is provided. The adapter includes a conducting member made from a conductive nanostructure-based material and having opposing ends. The adapter can also include a connector portion positioned on one end of the conducting member for maximizing a number of conductive nanostructures within the conducting member in contact with connector portion, so as to enable efficient conduction between a nanoscale environment and a traditional electrical and/or thermal circuit system. The adapter can further include a coupling mechanism situated between the conducting member and the connector portion, to provide a substantially uniform contact between the conductive nanostructure-based material in the conducting member and the connector portion. A method for making such a conductive adapter is also provided.
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