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公开(公告)号:US20140076158A1
公开(公告)日:2014-03-20
申请号:US13881428
申请日:2011-10-25
Applicant: James M. Tour , Garry Chih-Chau Hwang , Jay R. Lomeda
Inventor: James M. Tour , Garry Chih-Chau Hwang , Jay R. Lomeda
CPC classification number: B01D53/04 , B01D53/02 , B01D2253/102 , B01D2253/202 , B01D2253/25 , B01D2257/504 , B01J20/20 , B01J20/261 , B01J20/262 , B01J20/28069 , B01J20/2808 , B01J20/28083 , B01J20/28085 , B01J20/28097 , B01J20/327 , B01J20/3272 , B01J2220/46 , Y02C10/08
Abstract: Composite materials for carbon dioxide (C02) capture that include: (1) a mesoporous carbon source; and (2) an in situ polymerized polymer that is associated with the mesoporous carbon source, where the in situ polymerized polymer is selected from the group consisting of thiol-based polymers, amine-based polymers, and combinations thereof. Methods of making the composite materials for C02 capture include: (1) associating a mesoporous carbon source with monomers, where the monomers are selected from the group consisting of thiol-based monomers, amine-based monomers, and combinations thereof; and (2) polymerizing the monomers in situ to form said composite materials. Further embodiments of the present invention pertain to methods of capturing C02 from an environment by associating the environment with one or more of the aforementioned composite materials.
Abstract translation: 用于二氧化碳(CO 2)捕获的复合材料包括:(1)介孔碳源; 和(2)与介孔碳源相关联的原位聚合的聚合物,其中原位聚合的聚合物选自硫醇基聚合物,胺基聚合物及其组合。 制备用于CO 2捕获的复合材料的方法包括:(1)将介孔碳源与单体缔合,其中单体选自硫醇基单体,胺基单体及其组合; 和(2)原位聚合单体以形成所述复合材料。 本发明的其它实施方案涉及通过将环境与一种或多种上述复合材料相关联来从环境捕获CO 2的方法。
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2.发明申请Dissolution Of Graphite, Graphite And Graphene Nanoribbons In Superacid Solutions And Manipulation Thereof 有权石墨,石墨和石墨烯纳米带在超强酸溶液中的溶解及其操作公开(公告)号:US20120063988A1
公开(公告)日:2012-03-15
申请号:US13202352
申请日:2010-02-19
Applicant: James M. Tour , Matteo Pasquali , Natnael Behabtu , Jay R. Lomeda , Dmitry V. Kosynkin , Amanda Duque , Micah J. Green , A. Nicholas Parra-Vasquez , Colin Young
Inventor: James M. Tour , Matteo Pasquali , Natnael Behabtu , Jay R. Lomeda , Dmitry V. Kosynkin , Amanda Duque , Micah J. Green , A. Nicholas Parra-Vasquez , Colin Young
IPC: C01B31/00 , C08L77/10 , C08L79/00 , D01F9/12 , B29C47/00 , B05D3/02 , C08K3/30 , C01B31/04 , B82Y30/00 , B82Y40/00
CPC classification number: D01D1/02 , B82Y30/00 , B82Y40/00 , C01B32/19 , C01B32/194 , C01B32/20 , C01B32/23 , D01D5/04 , D01F9/12
Abstract: Methods for dissolving carbon materials such as, for example, graphite, graphite oxide, oxidized graphene nanoribbons and reduced graphene nanoribbons in a solvent containing at least one superacid are described herein. Both isotropic and liquid crystalline solutions can be produced, depending on the concentration of the carbon material The superacid solutions can be formed into articles such as, for example, fibers and films, mixed with other materials such as, for example, polymers, or used for functionalization of the carbon material. The superacid results in exfoliation of the carbon material to produce individual particles of the carbon material. In some embodiments, graphite or graphite oxide is dissolved in a solvent containing at least one superacid to form graphene or graphene oxide, which can be subsequently isolated. In some embodiments, liquid crystalline solutions of oxidized graphene nanoribbons in water are also described.
Abstract translation: 本文描述了将碳材料例如石墨,氧化石墨,氧化石墨烯纳米带和还原的石墨烯纳米带溶解在含有至少一种超强酸的溶剂中的方法。 根据碳材料的浓度,可以生产各向同性和液晶溶液。超强酸溶液可以形成为诸如纤维和薄膜的制品,与其它材料例如聚合物混合或使用 用于碳材料的官能化。 超强酸导致碳材料的剥离以产生碳材料的单个颗粒。 在一些实施方案中,将石墨或氧化石墨溶解在含有至少一种超强酸的溶剂中以形成石墨烯或氧化石墨烯,其可以随后分离。 在一些实施方案中,还描述了氧化石墨烯纳米带在水中的液晶溶液。
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公开(公告)号:US08183180B2
公开(公告)日:2012-05-22
申请号:US12832797
申请日:2010-07-08
Applicant: James M. Tour , Howard K. Schmidt , Jay R. Lomeda , Dmitry V. Kosynkin , Condell D. Doyle
Inventor: James M. Tour , Howard K. Schmidt , Jay R. Lomeda , Dmitry V. Kosynkin , Condell D. Doyle
CPC classification number: C09K8/032 , B82Y30/00 , B82Y40/00 , C01B32/192 , C01B32/194 , C01B32/23 , C01B2204/04 , C01B2204/28 , C09K8/035 , C09K8/62 , Y10S977/734 , Y10S977/737 , Y10S977/738
Abstract: Drilling fluids comprising graphenes and nanoplatelet additives and methods for production thereof are disclosed. Graphene includes graphite oxide, graphene oxide, chemically-converted graphene, and functionalized chemically-converted graphene. Derivatized graphenes and methods for production thereof are disclosed. The derivatized graphenes are prepared from a chemically-converted graphene through derivatization with a plurality of functional groups. Derivatization can be accomplished, for example, by reaction of a chemically-converted graphene with a diazonium species. Methods for preparation of graphite oxide are also disclosed.
Abstract translation: 公开了包含石墨烯和纳米血小板添加剂的钻井液及其生产方法。 石墨烯包括氧化石墨,氧化石墨烯,化学转化的石墨烯和官能化的化学转化的石墨烯。 公开了衍生化的石墨烯及其生产方法。 衍生的石墨烯通过具有多个官能团的衍生化由化学转化的石墨烯制备。 衍生化可以通过例如化学转化的石墨烯与重氮物质的反应来实现。 还公开了制备氧化石墨的方法。
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Patent Agency Ranking
公开(公告)号:US20110059871A1
公开(公告)日:2011-03-10
申请号:US12832797
申请日:2010-07-08
Applicant: James M. Tour , Howard K. Schmidt , Jay R. Lomeda , Dmitry V. Kosynkin , Condell D. Doyle
Inventor: James M. Tour , Howard K. Schmidt , Jay R. Lomeda , Dmitry V. Kosynkin , Condell D. Doyle
CPC classification number: C09K8/032 , B82Y30/00 , B82Y40/00 , C01B32/192 , C01B32/194 , C01B32/23 , C01B2204/04 , C01B2204/28 , C09K8/035 , C09K8/62 , Y10S977/734 , Y10S977/737 , Y10S977/738
Abstract: Drilling fluids comprising graphenes and nanoplatelet additives and methods for production thereof are disclosed. Graphene includes graphite oxide, graphene oxide, chemically-converted graphene, and functionalized chemically-converted graphene. Derivatized graphenes and methods for production thereof are disclosed. The derivatized graphenes are prepared from a chemically-converted graphene through derivatization with a plurality of functional groups. Derivatization can be accomplished, for example, by reaction of a chemically-converted graphene with a diazonium species. Methods for preparation of graphite oxide are also disclosed.
Abstract translation: 公开了包含石墨烯和纳米血小板添加剂的钻井液及其生产方法。 石墨烯包括氧化石墨,氧化石墨烯,化学转化的石墨烯和官能化的化学转化的石墨烯。 公开了衍生化的石墨烯及其生产方法。 衍生的石墨烯通过具有多个官能团的衍生化由化学转化的石墨烯制备。 衍生化可以通过例如化学转化的石墨烯与重氮物质的反应来实现。 还公开了制备氧化石墨的方法。
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公开(公告)号:US20110144386A1
公开(公告)日:2011-06-16
申请号:US12812169
申请日:2009-01-08
Applicant: James M. Tour , Howard K. Schmidt , Condell D. Doyle , Dmitry V. Kosynkin , Jay R. Lomeda
Inventor: James M. Tour , Howard K. Schmidt , Condell D. Doyle , Dmitry V. Kosynkin , Jay R. Lomeda
IPC: C07C63/00 , C07C25/24 , C07C205/45 , C07C43/235 , C07C17/281 , C01B31/00
CPC classification number: C09K8/032 , B82Y30/00 , B82Y40/00 , C01B32/192 , C01B32/194 , C01B32/23 , C01B2204/04 , C01B2204/28 , C09K8/035 , C09K8/62 , Y10S977/734 , Y10S977/737 , Y10S977/738
Abstract: Drilling fluids comprising graphenes and nanoplatelet additives and methods for production thereof are disclosed. Graphene includes graphite oxide, graphene oxide, chemically-converted graphene, and functionalized chemically-converted graphene. Derivatized graphenes and methods for production thereof are disclosed. The derivatized graphenes are prepared from a chemically-converted graphene through derivatization with a plurality of functional groups. Derivatization can be accomplished, for example, by reaction of a chemically-converted graphene with a diazonium species. Methods for preparation of graphite oxide are also disclosed.
Abstract translation: 公开了包含石墨烯和纳米血小板添加剂的钻井液及其生产方法。 石墨烯包括氧化石墨,氧化石墨烯,化学转化的石墨烯和官能化的化学转化的石墨烯。 公开了衍生化的石墨烯及其生产方法。 衍生的石墨烯通过具有多个官能团的衍生化由化学转化的石墨烯制备。 衍生化可以通过例如化学转化的石墨烯与重氮物质的反应来实现。 还公开了制备氧化石墨的方法。
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6.发明授权Dissolution of graphite, graphite and graphene nanoribbons in superacid solutions and manipulation thereof 有权石墨,石墨烯和石墨烯纳米带在超强酸溶液中的溶解及其操作公开(公告)号:US09534319B2
公开(公告)日:2017-01-03
申请号:US13202352
申请日:2010-02-19
Applicant: James M. Tour , Matteo Pasquali , Natnael Behabtu , Jay R. Lomeda , Dmitry V. Kosynkin , Amanda Duque , Micah J. Green , A. Nicholas Parra-Vasquez , Colin Young
Inventor: James M. Tour , Matteo Pasquali , Natnael Behabtu , Jay R. Lomeda , Dmitry V. Kosynkin , Amanda Duque , Micah J. Green , A. Nicholas Parra-Vasquez , Colin Young
IPC: C01B31/00 , C08L77/10 , C08L79/00 , D01F9/12 , B29C47/00 , B05D3/02 , C08K3/30 , C01B31/04 , B82Y30/00 , B82Y40/00 , D01D1/02 , D01D5/04
CPC classification number: D01D1/02 , B82Y30/00 , B82Y40/00 , C01B32/19 , C01B32/194 , C01B32/20 , C01B32/23 , D01D5/04 , D01F9/12
Abstract: Methods for dissolving carbon materials such as, for example, graphite, graphite oxide, oxidized graphene nanoribbons and reduced graphene nanoribbons in a solvent containing at least one superacid are described herein. Both isotropic and liquid crystalline solutions can be produced, depending on the concentration of the carbon material The superacid solutions can be formed into articles such as, for example, fibers and films, mixed with other materials such as, for example, polymers, or used for functionalization of the carbon material. The superacid results in exfoliation of the carbon material to produce individual particles of the carbon material. In some embodiments, graphite or graphite oxide is dissolved in a solvent containing at least one superacid to form graphene or graphene oxide, which can be subsequently isolated. In some embodiments, liquid crystalline solutions of oxidized graphene nanoribbons in water are also described.
Abstract translation: 本文描述了将碳材料例如石墨,氧化石墨,氧化石墨烯纳米带和还原的石墨烯纳米带溶解在含有至少一种超强酸的溶剂中的方法。 根据碳材料的浓度,可以生产各向同性和液晶溶液。超强酸溶液可以形成为诸如纤维和薄膜的制品,与其它材料例如聚合物混合或使用 用于碳材料的官能化。 超强酸导致碳材料的剥离以产生碳材料的单个颗粒。 在一些实施方案中,将石墨或氧化石墨溶解在含有至少一种超强酸的溶剂中以形成石墨烯或氧化石墨烯,其可以随后分离。 在一些实施方案中,还描述了氧化石墨烯纳米带在水中的液晶溶液。
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公开(公告)号:US09283511B2
公开(公告)日:2016-03-15
申请号:US13881428
申请日:2011-10-25
Applicant: James M. Tour , Garry Chih-Chau Hwang , Jay R. Lomeda
Inventor: James M. Tour , Garry Chih-Chau Hwang , Jay R. Lomeda
CPC classification number: B01D53/04 , B01D53/02 , B01D2253/102 , B01D2253/202 , B01D2253/25 , B01D2257/504 , B01J20/20 , B01J20/261 , B01J20/262 , B01J20/28069 , B01J20/2808 , B01J20/28083 , B01J20/28085 , B01J20/28097 , B01J20/327 , B01J20/3272 , B01J2220/46 , Y02C10/08
Abstract: Composite materials for carbon dioxide (C02) capture that include: (1) a mesoporous carbon source; and (2) an in situ polymerized polymer that is associated with the mesoporous carbon source, where the in situ polymerized polymer is selected from the group consisting of thiol-based polymers, amine-based polymers, and combinations thereof. Methods of making the composite materials for C02 capture include: (1) associating a mesoporous carbon source with monomers, where the monomers are selected from the group consisting of thiol-based monomers, amine-based monomers, and combinations thereof; and (2) polymerizing the monomers in situ to form said composite materials. Further embodiments of the present invention pertain to methods of capturing C02 from an environment by associating the environment with one or more of the aforementioned composite materials.
Abstract translation: 用于二氧化碳(CO 2)捕获的复合材料包括:(1)介孔碳源; 和(2)与介孔碳源相关联的原位聚合的聚合物,其中原位聚合的聚合物选自硫醇基聚合物,胺基聚合物及其组合。 制备用于CO 2捕获的复合材料的方法包括:(1)将介孔碳源与单体缔合,其中单体选自硫醇基单体,胺基单体及其组合; 和(2)原位聚合单体以形成所述复合材料。 本发明的其它实施方案涉及通过将环境与一种或多种上述复合材料相关联来从环境捕获CO 2的方法。
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公开(公告)号:US08362295B2
公开(公告)日:2013-01-29
申请号:US12812169
申请日:2009-01-08
Applicant: James M. Tour , Howard K. Schmidt , Condell D. Doyle , Dmitry V. Kosynkin , Jay R. Lomeda
Inventor: James M. Tour , Howard K. Schmidt , Condell D. Doyle , Dmitry V. Kosynkin , Jay R. Lomeda
IPC: C07C63/00 , C07C25/24 , C07C205/45 , C07C43/235 , C07C17/281 , C01B31/00
CPC classification number: C09K8/032 , B82Y30/00 , B82Y40/00 , C01B32/192 , C01B32/194 , C01B32/23 , C01B2204/04 , C01B2204/28 , C09K8/035 , C09K8/62 , Y10S977/734 , Y10S977/737 , Y10S977/738
Abstract: Drilling fluids comprising graphenes and nanoplatelet additives and methods for production thereof are disclosed. Graphene includes graphite oxide, graphene oxide, chemically-converted graphene, and functionalized chemically-converted graphene. Derivatized graphenes and methods for production thereof are disclosed. The derivatized graphenes are prepared from a chemically-converted graphene through derivatization with a plurality of functional groups. Derivatization can be accomplished, for example, by reaction of a chemically-converted graphene with a diazonium species. Methods for preparation of graphite oxide are also disclosed.
Abstract translation: 公开了包含石墨烯和纳米血小板添加剂的钻井液及其生产方法。 石墨烯包括氧化石墨,氧化石墨烯,化学转化的石墨烯和官能化的化学转化的石墨烯。 公开了衍生化的石墨烯及其生产方法。 衍生的石墨烯通过具有多个官能团的衍生化由化学转化的石墨烯制备。 衍生化可以通过例如化学转化的石墨烯与重氮物质的反应来实现。 还公开了制备氧化石墨的方法。
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