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31.发明申请Gas-Phase Process for Growing Carbon Nanotubes Utilizing Sequential Multiple Catalyst Injection 审中-公开使用顺序多催化剂注入生长碳纳米管的气相工艺公开(公告)号:US20080299029A1
公开(公告)日:2008-12-04
申请号:US11609984
申请日:2006-12-13
CPC分类号: B01J19/2415 , B01J4/002 , B01J19/2405 , B01J2219/00051 , B01J2219/00094 , B01J2219/00135 , B01J2219/00139 , B01J2219/00155 , B01J2219/00157 , B01J2219/00159 , B01J2219/00162 , B01J2219/00164 , B82Y30/00 , B82Y40/00 , C01B32/162
摘要: This invention relates generally to a method and apparatus for making carbon nanotubes from a flowing gaseous carbon-containing feedstock, such as CO, at superatmospheric pressure and at temperatures between about 500° C. and about 2000° C. utilizing a reactor wherein the flowing carbon-containing feedstock sequentially passes multiple points of catalyst injection, where the catalyst is provided by the decomposition of one or more catalyst precursor species, such as Fe(CO)5. In one embodiment, a catalyst cluster nucleation agency is employed to facilitate metal catalyst cluster formation. The reactor permits broad control over the reaction conditions, and enables addition of controlled amounts of catalyst over the length of the conduit reactor. The invention provides higher catalyst productivity because more catalyst precursor is used to form small active catalyst clusters versus forming catalyst clusters that grow along the reactor into large clusters, which are inactive for carbon nanotube production.
摘要翻译: 本发明一般涉及一种用于在超大气压和约500℃至约2000℃之间的温度下由来自流动气态含碳原料(例如CO)制备碳纳米管的方法和装置,其中使用反应器,其中流动 含碳原料依次通过催化剂注入的多个点,其中通过一种或多种催化剂前体物质如Fe(CO)5的分解提供催化剂。 在一个实施方案中,使用催化剂簇成核剂来促进金属催化剂簇形成。 反应器允许对反应条件的广泛控制,并且能够在导管反应器的长度上添加受控量的催化剂。 本发明提供更高的催化剂生产率,因为使用更多的催化剂前体形成小的活性催化剂簇,而不是形成沿着反应器生长成对于碳纳米管生产无活性的大簇的催化剂簇。
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公开(公告)号:US20080107586A1
公开(公告)日:2008-05-08
申请号:US11507973
申请日:2006-08-22
申请人: Richard E. Smalley , Daniel T. Colbert , Hongjie Dai , Jie Liu , Andrew G. Rinzler , Jason H. Hafner , Kenneth A. Smith , Ting Guo , Pavel Nikolaev , Andreas Thess
发明人: Richard E. Smalley , Daniel T. Colbert , Hongjie Dai , Jie Liu , Andrew G. Rinzler , Jason H. Hafner , Kenneth A. Smith , Ting Guo , Pavel Nikolaev , Andreas Thess
IPC分类号: D01F9/12
CPC分类号: G11C13/025 , B01J19/081 , B01J19/087 , B01J19/10 , B01J19/121 , B01J19/126 , B01J19/129 , B01J21/185 , B01J23/74 , B01J23/755 , B01J23/8913 , B01J37/0238 , B01J37/349 , B01J2219/00078 , B01J2219/0892 , B82B3/00 , C01B32/152 , C01B32/162 , C01B32/17 , C01B2202/02 , D01F9/12 , D01F9/127 , D21H27/00 , G11B9/1418 , G11B9/1445 , G11B9/1472 , G11B9/149 , G11C13/0014 , G11C13/0019 , G11C2213/16 , G11C2213/71 , G11C2213/81 , H01G9/2059 , H01L31/0352 , H01L31/06 , H01L31/18 , H01M4/133 , H01M4/525 , H01M4/583 , H01M4/587 , H01M4/625 , H01M10/0525 , Y02E10/542 , Y02E60/122 , Y02P70/521 , Y02P70/54 , Y10S977/70 , Y10S977/742 , Y10S977/745 , Y10S977/748 , Y10S977/75 , Y10S977/753 , Y10S977/789 , Y10S977/842 , Y10S977/843 , Y10S977/845 , Y10S977/847 , Y10S977/848 , Y10S977/849 , Y10S977/882 , Y10S977/948 , Y10T428/24058 , Y10T428/2918 , Y10T428/292 , Y10T428/30
摘要: This invention relates generally to a method for producing fullerene nanotube catalyst supports and compositions thereof. In one embodiment, fullerene nanotubes or fullerene nanotube structures can be employed as the support material. A transition metal catalyst is added to the fullerene nanotubes. In a preferred embodiment, the catalyst metal cluster is deposited on the open nanotube end by a docking process that insures optimum location for the subsequent growth reaction. The metal atoms may be subjected to reductive conditions.
摘要翻译: 本发明一般涉及富勒烯纳米管催化剂载体及其组合物的制备方法。 在一个实施方案中,可以使用富勒烯纳米管或富勒烯纳米管结构作为载体材料。 向富勒烯纳米管中加入过渡金属催化剂。 在优选的实施方案中,通过对接工艺将催化剂金属簇沉积在开放的纳米管末端上,确保最终的位置用于随后的生长反应。 金属原子可以经历还原条件。
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公开(公告)号:US07205069B2
公开(公告)日:2007-04-17
申请号:US10034745
申请日:2001-12-28
申请人: Richard E. Smalley , Daniel T. Colbert , Hongjie Dai , Jie Liu , Andrew G. Rinzler , Jason H. Hafner , Kenneth A. Smith , Ting Guo , Pavel Nikolaev , Andreas Thess
发明人: Richard E. Smalley , Daniel T. Colbert , Hongjie Dai , Jie Liu , Andrew G. Rinzler , Jason H. Hafner , Kenneth A. Smith , Ting Guo , Pavel Nikolaev , Andreas Thess
CPC分类号: G11C13/025 , B01J19/081 , B01J19/087 , B01J19/10 , B01J19/121 , B01J19/126 , B01J19/129 , B01J21/185 , B01J23/74 , B01J23/755 , B01J23/8913 , B01J37/0238 , B01J37/349 , B01J2219/00078 , B01J2219/0892 , B82B3/00 , C01B32/152 , C01B32/162 , C01B32/17 , C01B2202/02 , D01F9/12 , D01F9/127 , D21H27/00 , G11B9/1418 , G11B9/1445 , G11B9/1472 , G11B9/149 , G11C13/0014 , G11C13/0019 , G11C2213/16 , G11C2213/71 , G11C2213/81 , H01G9/2059 , H01L31/0352 , H01L31/06 , H01L31/18 , H01M4/133 , H01M4/525 , H01M4/583 , H01M4/587 , H01M4/625 , H01M10/0525 , Y02E10/542 , Y02E60/122 , Y02P70/521 , Y02P70/54 , Y10S977/70 , Y10S977/742 , Y10S977/745 , Y10S977/748 , Y10S977/75 , Y10S977/753 , Y10S977/789 , Y10S977/842 , Y10S977/843 , Y10S977/845 , Y10S977/847 , Y10S977/848 , Y10S977/849 , Y10S977/882 , Y10S977/948 , Y10T428/24058 , Y10T428/2918 , Y10T428/292 , Y10T428/30
摘要: This invention relates generally to membranes comprising an array of single-wall carbon nanotubes (SWNT) wherein the membrane is nanoporous. In one embodiment, the membrane comprises a substantially two-dimensional array of a homogeneous population of single-walled nanotubes aggregated in substantially parallel orientation to form a monolayer extending in directions substantially perpendicular to the orientation of the individual nanotubes. Using single-wall carbon nanotubes of the same type and structure provides a homogeneous array. By using different single-wall carbon nanotubes, either a random or ordered heterogeneous structure can be produced by employing successive reactions after removal of previously masked areas of a substrate. Other embodiments of the invention include batteries comprising a membrane comprising an array of single-wall carbon nanotubes or carbon fibers that are aggregates of single-wall carbon nanotubes, and wherein the plurality of single-wall carbon nanotubes are in a generally parallel orientation.
摘要翻译: 本发明一般涉及包含单壁碳纳米管阵列(SWNT)的膜,其中膜是纳米多孔的。 在一个实施方案中,膜包含以基本上平行取向聚集的均匀群体的单壁纳米管的基本二维阵列,以形成在基本上垂直于各个纳米管的取向的方向延伸的单层。 使用相同类型和结构的单壁碳纳米管提供了均匀的阵列。 通过使用不同的单壁碳纳米管,可以通过在去除衬底的先前掩蔽区域之后采用连续的反应来产生随机或有序的异质结构。 本发明的其它实施方案包括含有包含单壁碳纳米管阵列的膜的电池或作为单壁碳纳米管的聚集体的碳纤维,并且其中多个单壁碳纳米管是大致平行取向的。
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公开(公告)号:US07115864B2
公开(公告)日:2006-10-03
申请号:US10028231
申请日:2001-12-21
申请人: Daniel T. Colbert , Hongjie Dai , Jason H. Hafner , Andrew G. Rinzler , Richard E. Smalley , Jie Liu , Kenneth A. Smith , Ting Guo , Pavel Nikolaev , Andreas Thess
发明人: Daniel T. Colbert , Hongjie Dai , Jason H. Hafner , Andrew G. Rinzler , Richard E. Smalley , Jie Liu , Kenneth A. Smith , Ting Guo , Pavel Nikolaev , Andreas Thess
IPC分类号: G01N23/00
CPC分类号: G01Q70/12 , C01B32/152 , C01B32/162 , C01B32/174 , C01B2202/02 , C01B2202/06 , C01B2202/08 , C01B2202/24 , C01B2202/34 , G01Q70/16 , G11B9/1409 , G11B11/007 , G11C13/025 , G11C2213/81 , H01J2201/30469 , Y10S977/70 , Y10S977/75 , Y10S977/789 , Y10S977/843 , Y10S977/845 , Y10T428/249977 , Y10T428/2918
摘要: This invention relates generally to a single-wall carbon nanotube (SWNT) purification process and more particularly to a purification process that comprises heating the SWNT-containing felt under oxidizing conditions to remove the amorphous carbon deposits and other contaminating materials. In a preferred mode of this purification procedure, the felt is heated in an aqueous solution of an inorganic oxidant, such as nitric acid, a mixture of hydrogen peroxide and sulfuric acid, or a potassium permanganate. Preferably, SWNT-containing felts are refluxed in an aqueous solution of an oxidizing acid at a concentration high enough to etch away amorphous carbon deposits within a practical time frame, but not so high that the single-wall carbon nanotube material will be etched to a significant degree. When material having a high proportion of SWNT is purified, the preparation produced will be enriched in single-wall nanotubes, so that the SWNT are substantially free of other material.
摘要翻译: 本发明一般涉及单壁碳纳米管(SWNT)纯化方法,更具体地涉及一种净化方法,其包括在氧化条件下加热含SWNT的毡以除去无定形碳沉积物和其它污染物质。 在该纯化方法的优选方式中,将毡在无机氧化剂如硝酸,过氧化氢和硫酸的混合物或高锰酸钾的水溶液中加热。 优选地,含SWNT的毡在氧化酸的水溶液中以足够高的浓度回流,以在实用的时间框架内去除非晶碳沉积物,但不要太高,使得单壁碳纳米管材料将被蚀刻到 重要程度 当具有高比例的SWNT的材料被纯化时,所制备的制剂将富集在单壁纳米管中,使得SWNT基本上不含其它材料。
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35.发明授权公开(公告)号:US07105596B2
公开(公告)日:2006-09-12
申请号:US10033470
申请日:2001-12-28
申请人: Richard E. Smalley , Daniel T. Colbert , Hongjie Dai , Jie Liu , Andrew G. Rinzler , Jason H. Hafner , Kenneth A. Smith , Ting Guo , Pavel Nikolaev , Andreas Thess
发明人: Richard E. Smalley , Daniel T. Colbert , Hongjie Dai , Jie Liu , Andrew G. Rinzler , Jason H. Hafner , Kenneth A. Smith , Ting Guo , Pavel Nikolaev , Andreas Thess
IPC分类号: D01F9/12
CPC分类号: G11C13/025 , B01J19/081 , B01J19/087 , B01J19/10 , B01J19/121 , B01J19/126 , B01J19/129 , B01J21/185 , B01J23/74 , B01J23/755 , B01J23/8913 , B01J37/0238 , B01J37/349 , B01J2219/00078 , B01J2219/0892 , B82B3/00 , C01B32/152 , C01B32/162 , C01B32/17 , C01B2202/02 , D01F9/12 , D01F9/127 , D21H27/00 , G11B9/1418 , G11B9/1445 , G11B9/1472 , G11B9/149 , G11C13/0014 , G11C13/0019 , G11C2213/16 , G11C2213/71 , G11C2213/81 , H01G9/2059 , H01L31/0352 , H01L31/06 , H01L31/18 , H01M4/133 , H01M4/525 , H01M4/583 , H01M4/587 , H01M4/625 , H01M10/0525 , Y02E10/542 , Y02E60/122 , Y02P70/521 , Y02P70/54 , Y10S977/70 , Y10S977/742 , Y10S977/745 , Y10S977/748 , Y10S977/75 , Y10S977/753 , Y10S977/789 , Y10S977/842 , Y10S977/843 , Y10S977/845 , Y10S977/847 , Y10S977/848 , Y10S977/849 , Y10S977/882 , Y10S977/948 , Y10T428/24058 , Y10T428/2918 , Y10T428/292 , Y10T428/30
摘要: This invention relates generally to a method for producing composites of single-wall carbon nanotubes (SWNTs) and compositions thereof. In one embodiment, the present invention involves a method of producing a composite material that includes a matrix and a carbon nanotube material embedded within said matrix. In another embodiment, a method of producing a composite material containing carbon nanotube material is disclosed. This method includes the steps of preparing an assembly of a fibrous material; adding the carbon nanotube material to the fibrous material; and adding a matrix material precursor to the carbon nanotube material and the fibrous material.
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公开(公告)号:US07048903B2
公开(公告)日:2006-05-23
申请号:US10000746
申请日:2001-11-30
申请人: Daniel T. Colbert , Hongjie Dai , Jason H. Hafner , Andrew G. Rinzler , Richard E. Smalley , Jie Liu , Kenneth A. Smith , Ting Guo , Pavel Nikolaev , Andreas Thess
发明人: Daniel T. Colbert , Hongjie Dai , Jason H. Hafner , Andrew G. Rinzler , Richard E. Smalley , Jie Liu , Kenneth A. Smith , Ting Guo , Pavel Nikolaev , Andreas Thess
IPC分类号: D01F9/12
CPC分类号: G01Q70/12 , C01B32/152 , C01B32/162 , C01B32/174 , C01B2202/02 , C01B2202/06 , C01B2202/08 , C01B2202/24 , C01B2202/34 , G01Q70/16 , G11B9/1409 , G11B11/007 , G11C13/025 , G11C2213/81 , H01J2201/30469 , Y10S977/70 , Y10S977/75 , Y10S977/789 , Y10S977/843 , Y10S977/845 , Y10T428/249977 , Y10T428/2918
摘要: Macroscopically manipulable nanoscale devices made from nanotube assemblies are disclosed. The article of manufacture comprises a macroscopic mounting element capable of being manipulated or observed in a macroscale environment, and a nanoscale nanotube assembly attached to the mounting element. The article permits macroscale information to be provided to or obtained from a nanoscale environment. A method for making a macroscopically manipulable nanoscale devices comprises the steps of (1) providing a nanotube-containing material; (2) preparing a nanotube assembly device having at least one carbon nanotube for attachment; and (3) attaching said nanotube assembly to a surface of a mounting element.
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公开(公告)号:US07008604B2
公开(公告)日:2006-03-07
申请号:US10035075
申请日:2001-12-28
申请人: Richard E. Smalley , Daniel T. Colbert , Hongjie Dai , Jie Liu , Andrew G. Rinzler , Jason H. Hafner , Kenneth A. Smith , Ting Guo , Pavel Nikolaev , Andreas Thess
发明人: Richard E. Smalley , Daniel T. Colbert , Hongjie Dai , Jie Liu , Andrew G. Rinzler , Jason H. Hafner , Kenneth A. Smith , Ting Guo , Pavel Nikolaev , Andreas Thess
IPC分类号: D01F9/12
CPC分类号: G11C13/025 , B01J19/081 , B01J19/087 , B01J19/10 , B01J19/121 , B01J19/126 , B01J19/129 , B01J21/185 , B01J23/74 , B01J23/755 , B01J23/8913 , B01J37/0238 , B01J37/349 , B01J2219/00078 , B01J2219/0892 , B82B3/00 , C01B32/152 , C01B32/162 , C01B32/17 , C01B2202/02 , D01F9/12 , D01F9/127 , D21H27/00 , G11B9/1418 , G11B9/1445 , G11B9/1472 , G11B9/149 , G11C13/0014 , G11C13/0019 , G11C2213/16 , G11C2213/71 , G11C2213/81 , H01G9/2059 , H01L31/0352 , H01L31/06 , H01L31/18 , H01M4/133 , H01M4/525 , H01M4/583 , H01M4/587 , H01M4/625 , H01M10/0525 , Y02E10/542 , Y02E60/122 , Y02P70/521 , Y02P70/54 , Y10S977/70 , Y10S977/742 , Y10S977/745 , Y10S977/748 , Y10S977/75 , Y10S977/753 , Y10S977/789 , Y10S977/842 , Y10S977/843 , Y10S977/845 , Y10S977/847 , Y10S977/848 , Y10S977/849 , Y10S977/882 , Y10S977/948 , Y10T428/24058 , Y10T428/2918 , Y10T428/292 , Y10T428/30
摘要: This invention relates generally to cutting single-wall carbon nanotubes (SWNT). In one embodiment, the present invention provides for preparation of homogeneous populations of short carbon nanotube molecules by cutting and annealing (reclosing) the nanotube pieces followed by fractionation. The cutting and annealing processes may be carried out on a purified nanotube bucky paper, on felts prior to purification of nanotubes or on any material that contains single-wall nanotubes. In one embodiment, oxidative etching with concentrated nitric acid is employed to cut SWNTs into shorter lengths. The annealed nanotubes may be disbursed in an aqueous detergent solution or an organic solvent for the fractionation. Closed tubes can also be derivatized to facilitate fractionation, for example, by adding solubilizing moieties to the end caps.
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公开(公告)号:US06756026B2
公开(公告)日:2004-06-29
申请号:US10027750
申请日:2001-12-21
申请人: Daniel T. Colbert , Hongjie Dai , Jason H. Hafner , Andrew G. Rinzler , Richard E. Smalley , Kenneth A. Smith , Jie Liu , Ting Guo , Pavel Nikolaev , Andreas Thess
发明人: Daniel T. Colbert , Hongjie Dai , Jason H. Hafner , Andrew G. Rinzler , Richard E. Smalley , Kenneth A. Smith , Jie Liu , Ting Guo , Pavel Nikolaev , Andreas Thess
IPC分类号: D01F912
CPC分类号: G01Q70/12 , C01B32/152 , C01B32/162 , C01B32/174 , C01B2202/02 , C01B2202/06 , C01B2202/08 , C01B2202/24 , C01B2202/34 , G01Q70/16 , G11B9/1409 , G11B11/007 , G11C13/025 , G11C2213/81 , H01J2201/30469 , Y10S977/70 , Y10S977/75 , Y10S977/789 , Y10S977/843 , Y10S977/845 , Y10T428/249977 , Y10T428/2918
摘要: This invention relates generally to a method for growing carbon fiber from single-wall carbon nanotube (SWNT) molecular arrays. The carbon fiber which comprises an aggregation of substantially parallel carbon nanotubes may be produced by growth (elongation) of a suitable seed molecular array. The first step is to open the growth end of the SWNTs in the molecular array. Next, a transition metal catalyst is added to the open-ended seed array. In the next step, the SWNT molecular array with catalyst deposited on the open tube ends is subjected to tube growth (extension) conditions. The carbon supply necessary to grow the SWNT molecular array into a continuous fiber is supplied to the SWNT molecular array tip heated to a temperature sufficient to cause growth to any desired length. The continuous carbon fiber can also be grown from more than one separately prepared molecular arrays or templates.
摘要翻译: 本发明一般涉及从单壁碳纳米管(SWNT)分子阵列生长碳纤维的方法。 包含基本上平行的碳纳米管聚集的碳纤维可以通过合适的种子分子阵列的生长(伸长)来制备。 第一步是打开分子阵列中SWNTs的生长末端。 接下来,将过渡金属催化剂加入到开放式种子阵列中。 在下一步骤中,将沉积在开放管末端的催化剂的SWNT分子阵列进行管生长(延伸)条件。 将SWNT分子阵列生长成连续纤维所需的碳供应被提供到加热到足以引起生长到任何所需长度的温度的SWNT分子阵列末端。 连续碳纤维也可以从多个单独制备的分子阵列或模板生长。
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