公开(公告)号：US06665169B2

公开(公告)日：2003-12-16

申请号：US10131655

申请日：2002-04-24

申请人： Howard Tennent ,  David Moy ,  Chun-Ming Niu

发明人： Howard Tennent ,  David Moy ,  Chun-Ming Niu

IPC分类号： H01G4005

CPC分类号： H01G9/155 ,  B82Y30/00 ,  H01G4/005 ,  H01G9/22 ,  H01G11/02 ,  H01G11/24 ,  H01G11/36 ,  H01G11/48 ,  H01M4/583 ,  Y02E60/13 ,  Y02T10/7022 ,  Y10S977/734 ,  Y10S977/788

摘要： Graphitic nanofibers, which include tubular fullerenes (commonly called “buckytubes”), nanotubes and fibrils, which are functionalized by chemical substitution, are used as electrodes in electrochemical capacitors. The graphitic nanofiber based electrode increases the performance of the electrochemical capacitors.

摘要翻译： 包括管状富勒烯（通常称为“buckytubes”），通过化学取代官能化的纳米管和原纤维的石墨纳米纤维被用作电化学电容器中的电极。 石墨纳米纤维基电极增加了电化学电容器的性能。

公开(公告)号：US6031711A

公开(公告)日：2000-02-29

申请号：US856657

申请日：1997-05-15

申请人： Howard Tennent ,  David Moy ,  Chun-Ming Niu

发明人： Howard Tennent ,  David Moy ,  Chun-Ming Niu

IPC分类号： H01G4/005 ,  H01G4/12 ,  H01G9/00 ,  H01G9/22 ,  H01G11/02 ,  H01G11/24 ,  H01G11/36 ,  H01G11/48 ,  H01M4/58 ,  H01M4/60 ,  H01G4/32

CPC分类号： H01G9/155 ,  B82Y30/00 ,  H01G11/02 ,  H01G11/24 ,  H01G11/36 ,  H01G11/48 ,  H01G4/005 ,  H01G9/22 ,  H01M4/583 ,  Y02E60/13 ,  Y02T10/7022 ,  Y10S977/734 ,  Y10S977/788

摘要： Graphitic nanofibers, which include tubular fullerenes (commonly called "buckytubes"), nanotubes and fibrils, which are functionalized by chemical substitution, are used as electrodes in electrochemical capacitors. The graphitic nanofiber based electrode increases the performance of the electrochemical capacitors. Preferred nanofibers have a surface area greater than about 200 m.sup.2 /gm and are substantially free of micropores.

摘要翻译： 包括管状富勒烯（通常称为“buckytubes”），通过化学取代官能化的纳米管和原纤维的石墨纳米纤维被用作电化学电容器中的电极。 石墨纳米纤维基电极增加了电化学电容器的性能。 优选的纳米纤维具有大于约200m 2 / gm的表面积，并且基本上不含微孔。

公开(公告)号：US07862790B2

公开(公告)日：2011-01-04

申请号：US11841493

申请日：2007-08-20

申请人： David Moy ,  Chun-Ming Niu

发明人： David Moy ,  Chun-Ming Niu

IPC分类号： D01F9/12 ,  B82B3/00

CPC分类号： C04B35/62277 ,  B82Y30/00 ,  C01B32/90 ,  C01B32/956 ,  C04B35/62281 ,  C04B2235/3418 ,  C04B2235/428 ,  C04B2235/5264 ,  C04B2235/5288 ,  C04B2235/5296 ,  C04B2235/5481 ,  C04B2235/767 ,  C04B2235/81 ,  C04B2235/9661 ,  C30B25/005 ,  C30B29/36 ,  D01F9/08 ,  Y10S977/734

摘要： A plurality of carbide, such as silicon carbide, tungsten carbide, etc., nanofibrils predominantly having diameters substantially less than about 100 nm and a method for making such carbide nanofibrils. The method includes the steps of: heating a plurality of carbon nanotubes or nanofibrils predominantly having diameters less than about 50 nm in a reaction chamber in the presence of a gas of the form QnAm, where Q is a metal capable of forming a carbide, A is an element or radical and n and m are integers necessary to satisfy valences, such as, for example silicon monoxide, and an inert gas in a reaction vessel to a temperature substantially less than 1700 C but sufficently high to cause substantial reaction of the metal in the gas with the carbon of said carbon nanotubes or nanofibrils to form, in situ, solid carbide nanofibrils, the temperature being sufficiently low to prevent substantial fusing together of individidual ones of said carbide nanofibrils, removing at least a portion of A-based gas from said reaction chamber as said reaction progresses, and maintaining said temperature until substantially all the carbon of said nanotubes or nanofibrils has been converted into Q-based carbide.

摘要翻译： 多个碳化物，例如碳化硅，碳化钨等，主要具有基本上小于约100nm的直径的纳米原纤维和制造这种碳化物纳米原纤维的方法。 该方法包括以下步骤：在QnAm形式的气体存在下，在反应室中加热主要具有小于约50nm的直径的多个碳纳米管或纳米原纤维，其中Q是能够形成碳化物的金属，A 是元素或基团，并且n和m是满足价态所必需的整数，例如一氧化硅和反应容器中的惰性气体至基本上低于1700℃的温度，但足够高以引起金属的显着反应 在具有碳纳米管或纳米原纤维的碳的气体中，原位形成整体碳纳米纤维，其温度足够低，以防止所述碳化物纳米原纤维的单独的大量熔融在一起，除去至少一部分基于A的气体 当所述反应进行时，从所述反应室中回收，并保持所述温度，直到所述纳米管或纳米原纤维的基本上全部的碳转化为基于Q 碳化物。

公开(公告)号：US07854945B2

公开(公告)日：2010-12-21

申请号：US11412350

申请日：2006-04-26

申请人： Alan Fischer ,  Robert Hoch ,  David Moy ,  Chun-Ming Niu ,  Naoya Ogata ,  Howard Tennent

发明人： Alan Fischer ,  Robert Hoch ,  David Moy ,  Chun-Ming Niu ,  Naoya Ogata ,  Howard Tennent

IPC分类号： D01F9/12 ,  A61K9/16 ,  A61K9/50 ,  B05D7/00 ,  A01K1/015 ,  B32B5/16 ,  D02G3/00

CPC分类号： H01M4/60 ,  A61K33/44 ,  A61K48/00 ,  B82Y30/00 ,  B82Y40/00 ,  C01B32/152 ,  C01B32/174 ,  C01B2202/34 ,  C01B2202/36 ,  C07H21/02 ,  C07K17/06 ,  D01F9/12 ,  D01F11/14 ,  G01N33/5438 ,  G01N33/582 ,  G01N2030/8863 ,  G11C13/025 ,  Y10S530/811 ,  Y10S977/742 ,  Y10S977/746 ,  Y10S977/847 ,  Y10T428/249921 ,  Y10T428/25 ,  Y10T428/2927

摘要： Graphitic nanotubes, which includes tubular fullerenes (commonly called “buckytubes”) and fibrils, which are functionalized by chemical substitution or by adsorption of functional moieties. More specifically the invention relates to graphitic nanotubes which are uniformly or non-uniformly substituted with chemical moieties or upon which certain cyclic compounds are adsorbed and to complex structures comprised of such functionalized fibrils linked to one another. The invention also relates to methods of introducing functional groups onto the surface of such fibrils.

摘要翻译： 石墨纳米管，其包括管状富勒烯（通常称为“巴氏管”）和原纤维，其通过化学取代或功能部分的吸附官能化。 更具体地，本发明涉及由化学部分均匀或不均匀取代或其上吸附某些环状化合物的石墨纳米管和由彼此连接的这种官能化原纤维组成的复合结构。 本发明还涉及在这种原纤维的表面上引入官能团的方法。

公开(公告)号：US06960389B2

公开(公告)日：2005-11-01

申请号：US10164682

申请日：2002-06-07

申请人： Howard Tennent ,  David Moy ,  Chun-Ming Niu

发明人： Howard Tennent ,  David Moy ,  Chun-Ming Niu

IPC分类号： B32B9/00 ,  B01J21/18 ,  C01B31/02 ,  C04B14/38 ,  C04B20/00 ,  C04B30/02 ,  C04B38/00 ,  D01F9/12 ,  D01F11/14 ,  D04H1/42 ,  D04H1/58

CPC分类号： B01J20/205 ,  B01J20/20 ,  B01J20/28007 ,  B01J20/28011 ,  B01J20/28014 ,  B01J20/28047 ,  B01J20/28057 ,  B01J21/18 ,  B01J21/185 ,  B01J23/28 ,  B01J23/44 ,  B01J35/06 ,  B01J35/1023 ,  B01J35/1042 ,  B01J35/1047 ,  B82Y30/00 ,  B82Y40/00 ,  C01B32/05 ,  C01B32/168 ,  C04B14/386 ,  C04B20/006 ,  C04B30/02 ,  C04B35/63432 ,  C04B35/63456 ,  C04B35/63476 ,  C04B35/806 ,  C04B35/83 ,  C04B38/00 ,  C04B38/0051 ,  C04B2111/00129 ,  C04B2235/386 ,  C04B2235/48 ,  C04B2235/524 ,  C04B2235/5288 ,  C04B2235/6021 ,  C04B2235/77 ,  D01F9/12 ,  D01F11/14 ,  D04H1/4242 ,  D04H1/4382 ,  D04H1/58 ,  Y10S977/748 ,  Y10S977/752 ,  Y10S977/753 ,  Y10S977/767 ,  Y10T428/249962 ,  Y10T428/249967 ,  Y10T428/25 ,  Y10T428/2918 ,  Y10T428/2938 ,  Y10T428/30 ,  Y10T442/614 ,  Y10T442/624 ,  Y10T442/63 ,  Y10T442/699 ,  C04B18/02 ,  C04B35/52 ,  C04B38/0038 ,  C04B14/022 ,  C04B20/1066 ,  C04B40/006 ,  C04B40/0268 ,  C04B2103/408 ,  C04B2103/007 ,  C04B24/24 ,  C04B20/0056 ,  C04B20/023

摘要： This invention relates to rigid porous carbon structures and to methods of making same. The rigid porous structures have a high surface area which are substantially free of micropores. Methods for improving the rigidity of the carbon structures include causing the nanofibers to form bonds or become glued with other nanofibers at the fiber intersections. The bonding can be induced by chemical modification of the surface of the nanofibers to promote bonding, by adding “gluing” agents and/or by pyrolyzing the nanofibers to cause fusion or bonding at the interconnect points.

摘要翻译： 本发明涉及刚性多孔碳结构及其制造方法。 刚性多孔结构具有基本上不含微孔的高表面积。 提高碳结构刚性的方法包括使纳米纤维与纤维交叉处的其它纳米纤维形成粘结或粘合。 通过添加“粘合”剂和/或通过热解纳米纤维以在互连点处引起融合或结合，可以通过纳米纤维的表面的化学改性来促进粘合来引起粘合。

公开(公告)号：US20050036933A1

公开(公告)日：2005-02-17

申请号：US10725225

申请日：2003-12-01

申请人： David Moy ,  Chun-Ming Niu

发明人： David Moy ,  Chun-Ming Niu

IPC分类号： C01B31/36 ,  C01B31/30 ,  C04B35/56 ,  C04B35/573 ,  C30B25/00 ,  D01F9/08 ,  D01F9/127 ,  D06M11/77

CPC分类号： C04B35/62277 ,  B82Y30/00 ,  C01B32/90 ,  C01B32/956 ,  C04B35/62281 ,  C04B2235/3418 ,  C04B2235/428 ,  C04B2235/5264 ,  C04B2235/5288 ,  C04B2235/5296 ,  C04B2235/5481 ,  C04B2235/767 ,  C04B2235/81 ,  C04B2235/9661 ,  C30B25/005 ,  C30B29/36 ,  D01F9/08 ,  Y10S977/734

摘要： A plurality of carbide, such as silicon carbide, tungsten carbide, etc., nanofibrils predominantly having diameters substantially less than about 100 nm and a method for making such carbide nanofibrils. The method includes the steps of: heating a plurality of carbon nanotubes or nanofibrils predominantly having diameters less than about 50 nm in a reaction chamber in the presence of a gas of the form QnAm, where Q is a metal capable of forming a carbide, A is an element or radical and n and m are integers necessary to satisfy valences, such as, for example silicon monoxide, and an inert gas in a reaction vessel to a temperature substantially less than 1700 C but sufficently high to cause substantial reaction of the metal in the gas with the carbon of said carbon nanotubes or nanofibrils to form, in situ, solid carbide nanofibrils, the temperature being sufficiently low to prevent substantial fusing together of individidual ones of said carbide nanofibrils, removing at least a portion of A-based gas from said reaction chamber as said reaction progresses, and maintaining said temperature until substantially all the carbon of said nanotubes or nanofibrils has been converted into Q-based carbide.

摘要翻译： 多个碳化物，例如碳化硅，碳化钨等，主要具有基本上小于约100nm的直径的纳米原纤维和制造这种碳化物纳米原纤维的方法。 该方法包括以下步骤：在QnAm形式的气体存在下，在反应室中加热主要具有小于约50nm的直径的多个碳纳米管或纳米原纤维，其中Q是能够形成碳化物的金属，A 是元素或基团，并且n和m是满足价态所必需的整数，例如一氧化硅和反应容器中的惰性气体至基本上低于1700℃的温度，但足够高以引起金属的显着反应 在具有碳纳米管或纳米原纤维的碳的气体中，原位形成整体碳纳米纤维，其温度足够低，以防止所述碳化物纳米原纤维的单独的大量熔融在一起，除去至少一部分基于A的气体 当所述反应进行时，从所述反应室中回收，并保持所述温度，直到所述纳米管或纳米原纤维的基本上全部的碳转化为基于Q 碳化物。

公开(公告)号：US6099960A

公开(公告)日：2000-08-08

申请号：US854918

申请日：1997-05-13

申请人： Howard Tennent ,  David Moy ,  Chun-Ming Niu

发明人： Howard Tennent ,  David Moy ,  Chun-Ming Niu

IPC分类号： B32B9/00 ,  D01F9/12 ,  D01F9/14 ,  D01F11/14 ,  D02G3/36 ,  D02G3/00

CPC分类号： D02G3/36 ,  D01F11/14 ,  D01F9/12 ,  D10B2101/122 ,  Y10T428/2918 ,  Y10T428/2975 ,  Y10T428/2978

摘要： A high surface area carbon nanofiber is provided. The carbon nanofiber has an outer surface on which a porous high surface area layer is formed. A method of making the high surface area carbon nanofiber includes pyrolizing a polymeric coating substance provided on the outer surface of the carbon nanofiber at a temperature below the temperature at which the polymeric coating substance melts. The polymeric coating substance used as the high surface area around the carbon nanofiber may include phenolics-formaldehyde, polyacrylonitrile, styrene, divinyl benzene, cellulosic polymers and cyclotrimerized diethynyl benzene. The high surface area polymer which covers the carbon nanofiber may be functionalized with one or more functional groups.

摘要翻译： 提供高表面积的碳纳米纤维。 碳纳米纤维具有形成多孔高表面积层的外表面。 制造高表面积碳纳米纤维的方法包括在低于聚合物涂层物质熔化的温度的温度下热解设置在碳纳米纤维的外表面上的聚合物涂层物质。 用作碳纳米纤维周围高表面积的聚合物涂层物质可包括酚醛树脂，聚丙烯腈，苯乙烯，二乙烯基苯，纤维素聚合物和环三聚二乙炔基苯。 覆盖碳纳米纤维的高表面积聚合物可以用一个或多个官能团官能化。

公开(公告)号：US20080175782A1

公开(公告)日：2008-07-24

申请号：US11841493

申请日：2007-08-20

申请人： David Moy ,  Chun-Ming Niu

发明人： David Moy ,  Chun-Ming Niu

IPC分类号： C01B31/30 ,  C01B31/34 ,  C01B31/36

CPC分类号： C04B35/62277 ,  B82Y30/00 ,  C01B32/90 ,  C01B32/956 ,  C04B35/62281 ,  C04B2235/3418 ,  C04B2235/428 ,  C04B2235/5264 ,  C04B2235/5288 ,  C04B2235/5296 ,  C04B2235/5481 ,  C04B2235/767 ,  C04B2235/81 ,  C04B2235/9661 ,  C30B25/005 ,  C30B29/36 ,  D01F9/08 ,  Y10S977/734

摘要： A plurality of carbide, such as silicon carbide, tungsten carbide, etc., nanofibrils predominantly having diameters substantially less than about 100 nm and a method for making such carbide nanofibrils. The method includes the steps of: heating a plurality of carbon nanotubes or nanofibrils predominantly having diameters less than about 50 nm in a reaction chamber in the presence of a gas of the form QnAm, where Q is a metal capable of forming a carbide, A is an element or radical and n and m are integers necessary to satisfy valences, such as, for example silicon monoxide, and an inert gas in a reaction vessel to a temperature substantially less than 1700 C but sufficently high to cause substantial reaction of the metal in the gas with the carbon of said carbon nanotubes or nanofibrils to form, in situ, solid carbide nanofibrils, the temperature being sufficiently low to prevent substantial fusing together of individidual ones of said carbide nanofibrils, removing at least a portion of A-based gas from said reaction chamber as said reaction progresses, and maintaining said temperature until substantially all the carbon of said nanotubes or nanofibrils has been converted into Q-based carbide.

摘要翻译： 多个碳化物，例如碳化硅，碳化钨等，主要具有基本上小于约100nm的直径的纳米原纤维和制造这种碳化物纳米原纤维的方法。 该方法包括以下步骤：在反应室中，在存在下列形式的气体的情况下，加热主要具有小于约50nm直径的碳纳米管或纳米原纤维 其中Q是能够形成碳化物的金属，A是元素或基团，n和m是满足价态所必需的整数，例如一氧化硅，以及反应容器中的惰性气体， 温度基本上小于1700℃，但足够高，导致气体中的金属与所述碳纳米管或纳米原纤维的碳的实质反应，原位形成整体碳化物纳米原纤维，其温度足够低以防止大量熔融在一起 所述碳化物纳米原纤维的单独的，当所述反应进行时，从所述反应室中除去至少一部分A基气体，并保持所述温度，直到所述纳米管或纳米原纤维的基本上全部为碳 转为Q型碳化物。

公开(公告)号：US07393514B2

公开(公告)日：2008-07-01

申请号：US11265804

申请日：2005-11-02

申请人： David Moy ,  Chun-Ming Niu

发明人： David Moy ,  Chun-Ming Niu

IPC分类号： C01B31/36

CPC分类号： C04B35/62277 ,  B82Y30/00 ,  C01B32/90 ,  C01B32/956 ,  C04B35/62281 ,  C04B2235/3418 ,  C04B2235/428 ,  C04B2235/5264 ,  C04B2235/5288 ,  C04B2235/5296 ,  C04B2235/5481 ,  C04B2235/767 ,  C04B2235/81 ,  C04B2235/9661 ,  C30B25/005 ,  C30B29/36 ,  D01F9/08 ,  Y10S977/734

摘要： A plurality of carbide, such as silicon carbide, tungsten carbide, etc., nanofibrils predominantly having diameters substantially less than about 100 nm and a method for making such carbide nanofibrils. The method includes the steps of: heating a plurality of carbon nanotubes or nanofibrils predominantly having diameters less than about 50 nm in a reaction chamber in the presence of a gas of the form QnAm, where Q is a metal capable of forming a carbide, A is an element or radical and n and m are integers necessary to satisfy valences, such as, for example silicon monoxide, and an inert gas in a reaction vessel to a temperature substantially less than 1700 C but sufficently high to cause substantial reaction of the metal in the gas with the carbon of said carbon nanotubes or nanofibrils to form, in situ, solid carbide nanofibrils, the temperature being sufficiently low to prevent substantial fusing together of individidual ones of said carbide nanofibrils, removing at least a portion of A-based gas from said reaction chamber as said reaction progresses, and maintaining said temperature until substantially all the carbon of said nanotubes or nanofibrils has been converted into Q-based carbide.

摘要翻译： 多个碳化物，例如碳化硅，碳化钨等，主要具有基本上小于约100nm的直径的纳米原纤维和制造这种碳化物纳米原纤维的方法。 该方法包括以下步骤：在反应室中，在存在下列形式的气体的情况下，加热主要具有小于约50nm直径的碳纳米管或纳米原纤维 其中Q是能够形成碳化物的金属，A是元素或基团，n和m是满足价态所必需的整数，例如一氧化硅，以及反应容器中的惰性气体， 温度基本上小于1700℃，但足够高，导致气体中的金属与所述碳纳米管或纳米原纤维的碳的实质反应，原位形成整体碳化物纳米原纤维，其温度足够低以防止大量熔融在一起 所述碳化物纳米原纤维的单独的，当所述反应进行时，从所述反应室中除去至少一部分A基气体，并保持所述温度，直到所述纳米管或纳米原纤维的基本上全部为碳 转为Q型碳化物。

公开(公告)号：US6099965A

公开(公告)日：2000-08-08

申请号：US857383

申请日：1997-05-15

申请人： Howard Tennent ,  David Moy ,  Chun-Ming Niu

发明人： Howard Tennent ,  David Moy ,  Chun-Ming Niu

IPC分类号： B32B9/00 ,  B01J21/18 ,  C01B31/02 ,  C04B14/38 ,  C04B20/00 ,  C04B30/02 ,  C04B38/00 ,  D01F9/12 ,  D01F11/14 ,  D04H1/42 ,  D04H1/58 ,  C01B11/04

CPC分类号： B01J20/205 ,  B01J20/20 ,  B01J20/28007 ,  B01J20/28011 ,  B01J20/28014 ,  B01J20/28047 ,  B01J20/28057 ,  B01J21/18 ,  B01J21/185 ,  B01J23/28 ,  B01J23/44 ,  B01J35/06 ,  B01J35/1023 ,  B01J35/1042 ,  B01J35/1047 ,  B82Y30/00 ,  B82Y40/00 ,  C01B31/02 ,  C01B31/0253 ,  C04B14/386 ,  C04B20/006 ,  C04B30/02 ,  C04B35/63432 ,  C04B35/63456 ,  C04B35/63476 ,  C04B35/806 ,  C04B35/83 ,  C04B38/00 ,  C04B38/0051 ,  D01F11/14 ,  D01F9/12 ,  D04H1/4242 ,  D04H1/4382 ,  D04H1/58 ,  C04B2111/00129 ,  C04B2235/386 ,  C04B2235/48 ,  C04B2235/524 ,  C04B2235/5288 ,  C04B2235/6021 ,  C04B2235/77 ,  Y10S977/748 ,  Y10S977/752 ,  Y10S977/753 ,  Y10S977/767 ,  Y10T428/249962 ,  Y10T428/249967 ,  Y10T428/25 ,  Y10T428/2918 ,  Y10T428/2938 ,  Y10T428/30 ,  Y10T442/614 ,  Y10T442/624 ,  Y10T442/63 ,  Y10T442/699

摘要： This invention relates to rigid porous carbon structures and to methods of making same. The rigid porous structures have a high surface area which are substantially free of micropores. Methods for improving the rigidity of the carbon structures include causing the nanofibers to form bonds or become glued with other nanofibers at the fiber intersections. The bonding can be induced by chemical modification of the surface of the nanofibers to promote bonding, by adding "gluing" agents and/or by pyrolyzing the nanofibers to cause fusion or bonding at the interconnect points.