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    • 1. 发明申请
    • Macroscopic ordered assembly of carbon nanotubes
    • 宏观有序的碳纳米管组装
    • US20050169830A1
    • 2005-08-04
    • US10759356
    • 2004-01-16
    • Smalley RichardDaniel ColbertKenneth SmithDeron WaltersMichael CasavantChad HuffmanBoris YakobsonRobert HaugeRajesh SainiWan-Ting ChiangXiao Qin
    • Smalley RichardDaniel ColbertKenneth SmithDeron WaltersMichael CasavantChad HuffmanBoris YakobsonRobert HaugeRajesh SainiWan-Ting ChiangXiao Qin
    • C01B31/02H01J1/304H01J9/02D01F9/12H05F3/00
    • B82Y40/00B82Y10/00B82Y30/00C01B32/168C01B2202/02C01B2202/08H01J2201/30469Y10S977/75Y10S977/845Y10S977/847Y10T156/10
    • The present invention is directed to the creation of macroscopic materials and objects comprising aligned nanotube segments. The invention entails aligning single-wall carbon nanotube (SWNT) segments that are suspended in a fluid medium and then removing the aligned segments from suspension in a way that macroscopic, ordered assemblies of SWNT are formed. The invention is further directed to controlling the natural proclivity of nanotube segments to self assemble into ordered structures by modifying the environment of the nanotubes and the history of that environment prior to and during the process. The materials and objects are “macroscopic” in that they are large enough to be seen without the aid of a microscope or of the dimensions of such objects. These macroscopic, ordered SWNT materials and objects have the remarkable physical, electrical, and chemical properties that SWNT exhibit on the microscopic scale because they are comprised of nanotubes, each of which is aligned in the same direction and in contact with its nearest neighbors. An ordered assembly of closest SWNT also serves as a template for growth of more and larger ordered assemblies. An ordered assembly further serves as a foundation for post processing treatments that modify the assembly internally to specifically enhance selected material properties such as shear strength, tensile strength, compressive strength, toughness, electrical conductivity, and thermal conductivity.
    • 本发明涉及包括对准的纳米管段的宏观材料和物体的产生。 本发明需要将悬浮在流体介质中的单壁碳纳米管(SWNT)段对准,然后以形成SWNT的宏观有序组件的方式从悬浮液中除去对准的段。 本发明进一步涉及通过在过程之前和过程中修改纳米管的环境和该环境的历史来控制纳米管段的自然倾向自我组装成有序结构。 材料和物体是“宏观的”,因为它们足够大以便在没有显微镜或这些物体的尺寸的情况下被看到。 这些宏观有序的SWNT材料和物体具有显着的物理,电学和化学性质,SWNT在微观尺度上显示,因为它们由纳米管组成,其中每个纳米管沿相同方向排列并与其最近的邻近物接触。 最近的SWNT的有序组件也可以作为增加更多和更大订单组件的模板。 订购的组件还用作后处理处理的基础,其在内部改变组件以特异性地增强选定的材料性能,例如剪切强度,抗拉强度,抗压强度,韧性,导电性和导热性。
    • 4. 发明授权
    • Process for purifying single-wall carbon nanotubes and compositions thereof
    • 单壁碳纳米管纯化方法及其组合物
    • US06752977B2
    • 2004-06-22
    • US10068907
    • 2002-02-08
    • Richard E. SmalleyRobert H. HaugeWan-Ting Chiang
    • Richard E. SmalleyRobert H. HaugeWan-Ting Chiang
    • D01F912
    • B82Y30/00B82Y40/00C01B32/17C01B2202/02D01F9/1278D01F11/121Y10S977/75Y10S977/845
    • The present invention relates to a process for the purification of single-wall carbon nanotubes and the purified single-wall carbon nanotube material. Known methods of single-wall carbon nanotube production result in a single-wall carbon nanotube product that contains single-wall carbon nanotubes in addition to impurities including residual metal catalyst particles and amounts of small amorphous carbon sheets that surround the catalyst particles and appear on the sides of the single-wall carbon nanotubes and “ropes” of single-wall carbon nanotubes. The purification process removes the extraneous carbon as well as metal-containing residual catalyst particles. The process employs steps including a gas-phase oxidation of the amorphous carbon and subsequent liquid-phase reaction of a halogen-containing acid with the metal-containing species. Optionally, the single-wall carbon nanotube material may be annealed dry or in the presence of moisture. The present invention provides a scalable means for producing high-purity single-wall carbon nanotube material.
    • 本发明涉及纯化单壁碳纳米管和纯化的单壁碳纳米管材料的方法。 单壁碳纳米管生产的已知方法导致单壁碳纳米管产物,除了包含残留金属催化剂颗粒的杂质和围绕催化剂颗粒的小的无定形碳片的含量之外,还包含单壁碳纳米管,并出现在 单壁碳纳米管的侧面和单壁碳纳米管的“绳索”。 净化过程除去外来碳以及含金属的残留催化剂颗粒。 该方法采用包括无定形碳的气相氧化和随后的含卤素酸与含金属物质的液相反应的步骤。 任选地,单壁碳纳米管材料可以是干燥的或在水分存在下退火的。 本发明提供了用于生产高纯度单壁碳纳米管材料的可伸缩手段。
    • 6. 发明授权
    • Macroscopic ordered assembly of carbon nanotubes
    • 宏观有序的碳纳米管组装
    • US06790425B1
    • 2004-09-14
    • US09890030
    • 2001-07-24
    • Richard E. SmalleyDaniel T. ColbertKen A. SmithDeron A. WaltersMichael J. CasavantChad B. HuffmanBoris I. YakobsonRobert H. HagueRajesh Kumar SainiWan-Ting Chiang
    • Richard E. SmalleyDaniel T. ColbertKen A. SmithDeron A. WaltersMichael J. CasavantChad B. HuffmanBoris I. YakobsonRobert H. HagueRajesh Kumar SainiWan-Ting Chiang
    • D01F912
    • B82Y40/00B82Y10/00B82Y30/00C01B32/168C01B2202/02C01B2202/08H01J2201/30469Y10S977/75Y10S977/845Y10S977/847Y10T156/10
    • The present invention is directed to the creation of macroscopic materials and objects comprising aligned nanotube segments. The invention entails aligning single-wall carbon nanotube (SWNT) segments that are suspended in a fluid medium and then removing the aligned segments from suspension in a way that macroscopic, ordered assemblies of SWNT are formed. The invention is further directed to controlling the natural proclivity of nanotube segments to self assemble into ordered structures by modifying the environment of the nanotubes and the history of that environment prior to and during the process. The materials and objects are “macroscopic” in that they are large enough to be seen without the aid of a microscope or of the dimensions of such objects. These macroscopic, ordered SWNT materials and objects have the remarkable physical, electrical, and chemical properties that SWNT exhibit on the microscopic scale because they are comprised nanotubes, each of which is aligned in the same direction and in contact with its nearest neighbors. An ordered assembly of closest SWNT also serves as a template for growth of more and larger ordered assemblies. An ordered assembly further serves as a foundation for post processing treatments that modify the assembly internally to specifically enhance selected material properties such as shear strength, tensile strength, compressive strength, toughness, electrical conductivity, and thermal conductivity.
    • 本发明涉及包括对准的纳米管段的宏观材料和物体的产生。 本发明需要将悬浮在流体介质中的单壁碳纳米管(SWNT)段对准,然后以形成SWNT的宏观有序组件的方式从悬浮液中除去对准的段。 本发明进一步涉及通过在过程之前和过程中修改纳米管的环境和该环境的历史来控制纳米管段的自然倾向自我组装成有序结构。 材料和物体是“宏观的”,因为它们足够大以便在没有显微镜或这些物体的尺寸的情况下被看到。 这些宏观有序的SWNT材料和物体具有显着的物理,电学和化学性质,SWNT在微观尺度上显示,因为它们包含纳米管,每个纳米管沿相同方向排列并与其最近的邻近物接触。 最近的SWNT的有序组件也可以作为增加更多和更大订单组件的模板。 订购的组件还用作后处理处理的基础,其在内部改变组件以特异性地增强选定的材料性能,例如剪切强度,抗拉强度,抗压强度,韧性,导电性和导热性。