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Method for producing self-assembled objects comprising fullerene nanotubes and compositions thereof

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • D01F-009/12
  • B82B-001/00
출원번호 US-0507965 (2006-08-22)
등록번호 US-7419651 (2008-09-02)
발명자 / 주소
  • Smalley,Richard E.
  • Colbert,Daniel T.
  • Dai,Hongjie
  • Liu,Jie
  • Rinzler,Andrew G.
  • Hafner,Jason H.
  • Smith,Ken
  • Guo,Ting
  • Nikolaev,Pavel
  • Thess,Andreas
출원인 / 주소
  • William Marsh Rice University
대리인 / 주소
    Fish & Richardson P.C.
인용정보 피인용 횟수 : 23  인용 특허 : 26

초록

This invention relates generally to a method for producing self-assembled objects comprising fullerene nanotubes and compositions thereof. In one embodiment, the present invention involves a three-dimensional structure of derivatized fullerene nanotubes that spontaneously form. It includes several

대표청구항

We claim: 1. A three-dimensional structure that self-assembles from derivatized fullerene nanotubes comprising: a plurality of multifunctional fullerene nanotubes assembled into said three-dimensional structure. 2. The three-dimensional structure of claim 1, wherein said fullerene nanotubes have

이 특허에 인용된 특허 (26)

  1. Lowery Guy R. (Mission Viejo CA) Bacich Steven R. (Laguna Niguel CA) Tholin Keith (Irvine CA), Apparatus and method for independent movement of an instrument within a linear catheter.
  2. Smalley, Richard E.; Colbert, Daniel T.; Dai, Hongjie; Liu, Jie; Rinzler, Andrew G.; Hafner, Jason H.; Smith, Ken; Guo, Ting; Nikolaev, Pavel; Thess, Andreas, Carbon fibers formed from single-wall carbon nanotubes.
  3. Margrave, John L.; Mickelson, Edward T.; Hauge, Robert; Boul, Peter; Huffman, Chad; Liu, Jie; Smalley, Richard E.; Smith, Ken; Colbert, Daniel T., Chemical derivatization of single-wall carbon nanotubes to facilitate solvation thereof; and use of derivatized nanotubes to form catalyst-containing seed materials for use in making carbon fibers.
  4. Henderson Eric ; Vesenka James, Decontamination device and method thereof.
  5. Yamanaka Kazushi (Tsukuba JPX), Directional atomic force microscope and method of observing a sample with the microscope.
  6. Rabinowitz Mario (715 Lakemead Way Redwood City CA 94062), Emissive flat panel display with improved regenerative cathode.
  7. Ikeda Hiroharu,JPX ; Hoch Robert ; Hausslein Robert, Lithium battery with electrodes containing carbon fibrils.
  8. Smalley, Richard E.; Colbert, Daniel T.; Smith, Ken A.; Walters, Deron A.; Casavant, Michael J.; Huffman, Chad B.; Yakobson, Boris I.; Hague, Robert H.; Saini, Rajesh Kumar; Chiang, Wan-Ting, Macroscopic ordered assembly of carbon nanotubes.
  9. Smalley,Richard E.; Colbert,Daniel T.; Dai,Hongjie; Liu,Jie; Rinzler,Andrew G.; Hafner,Jason H.; Smith,Kenneth A.; Guo,Ting; Nikolaev,Pavel; Thess,Andreas, Membrane comprising an array of single-wall carbon nanotubes.
  10. Wells Oliver C. (Yorktown Heights NY), Method and apparatus for low-energy scanning electron beam lithography.
  11. Colbert, Daniel T.; Dai, Hongjie; Hafner, Jason H.; Rinzler, Andrew G.; Smalley, Richard E., Method for producing a catalyst support and compositions thereof.
  12. Smalley,Richard E.; Colbert,Daniel T.; Dai,Hongjie; Liu,Jie; Rinzler,Andrew G.; Hafner,Jason H.; Smith,Kenneth A.; Guo,Ting; Nikolaev,Pavel; Thess,Andreas, Method for producing a catalyst support and compositions thereof.
  13. Smalley Richard E. ; Colbert Daniel T. ; Guo Ting ; Rinzler Andrew G. ; Nikolaev Pavel ; Thess Andreas, Method of making ropes of single-wall carbon nanotubes.
  14. Baldeschwieler John D. ; Baselt David Randall ; Unger Marc A. ; O'Connor Stephen D., Method of preparing probes for sensing and manipulating microscopic environments and structures.
  15. Ebbesen Thomas (Tokyo JPX) Ajayan Pulickel M. (Tokyo JPX) Hiura Hidefumi (Tokyo JPX), Method of purifying carbon nanotubes.
  16. Haddon Robert C. ; Chen Jian, Method of solubilizing shortened single-walled carbon nanotubes in organic solutions.
  17. Randall B. Murphy ; Stephen R. Wilson ; Quing Lu, Methods for the preparation and characterization of multi-substituted fullerenes.
  18. Gallagher Alan C. (Louisville CO), Microtip-controlled nanostructure fabrication and multi-tipped field-emission tool for parallel-process nanostructure fa.
  19. Fischer Alan B., Nanofiber packed beds having enhanced fluid flow characteristics.
  20. Clabes Joachim G. (Yorktown Heights NY) Hatzakis Michael (Chappaqua NY) Lee Kam L. (Putnam Valley NY) Petek Bojan (Croton-on-Hudson NY) Slonczewski John C. (Katonah NY), Nanometer scale probe for an atomic force microscope, and method for making same.
  21. Hiura Hidefumi (Tokyo JPX) Ebbesen Thomas (Tokyo JPX), Process for purifying, uncapping and chemically modifying carbon nanotubes.
  22. Uchida Kunio (Tsukuba JPX) Yumura Motoo (Tsukuba JPX) Ohshima Satoshi (Abiko JPX) Kuriki Yasunori (Tsukuba JPX) Yase Kiyoshi (Tsukuba JPX) Ikazaki Fumikazu (Tsukuba JPX), Process of isolating carbon nanotubes from a mixture containing carbon nanotubes and graphite particles.
  23. Nakagawa Tohru,JPX, Scanning probe microscope and molecular processing method using the scanning probe microscope.
  24. Nakagawa Tohru (Osaka JPX), Scanning probe microscope, molecular processing method using the scanning probe microscope and DNA base arrangement dete.
  25. Bloom David M. (Portola Valley CA) Ho Francis (Stanford CA) Hou Alfred S. (Menlo Park CA), System and method of measuring high-speed electrical waveforms using force microscopy and offset sampling frequencies.
  26. Weiss Paul S. (State College PA) Stranick Stephan J. (State College PA), System for detecting threshold phenomena associated with and/or atomic or molecular spectra of a substance.

이 특허를 인용한 특허 (23)

  1. Hauck, James Pierre, Graphene production using laser heated crystal growth.
  2. Hauck, James Pierre, Graphene production using laser heated crystal growth.
  3. Yan, Yipeng; Bogert, Robert James, High current amorphous powder core inductor.
  4. Liu, Zhuomin; Bogert, Robert James, High current power inductor.
  5. Zhou, Chongwu; Badmaev, Alexander; Wang, Chuan; Che, Yuchi, High performance field-effect transistors.
  6. Hsiao, Kuang-Ting, Insulated fiber sensor apparatus and method.
  7. Zhou, Chongwu; Ryu, Koungmin; Badmaev, Alexander; Wang, Chuan, Integrated circuits based on aligned nanotubes.
  8. Zhou, Chongwu; Ryu, Koungmin; Badmaev, Alexander; Wang, Chuan, Integrated circuits based on aligned nanotubes.
  9. Zhou, Chongwu; Ryu, Koungmin; Badmaev, Alexander; Wang, Chuan, Integrated circuits based on aligned nanotubes.
  10. Doljack, Frank Anthony; Kamath, Hundi Panduranga, Laminated magnetic component and manufacture with soft magnetic powder polymer composite sheets.
  11. Bogert, Robert James; Yan, Yipeng; Doljack, Frank Anthony; Kamath, Hundi Panduranga, Low profile layered coil and cores for magnetic components.
  12. Manoukian, Daniel Minas; Bogert, Robert James, Low profile layered coil and cores for magnetic components.
  13. Yan, Yipeng; Bogert, Robert James, Magnetic components and methods of manufacturing the same.
  14. Yan, Yipeng; Bogert, Robert James, Magnetic components and methods of manufacturing the same.
  15. Yan, Yipeng; Bogert, Robert James, Magnetic components and methods of manufacturing the same.
  16. Yan, Yipeng; Bogert, Robert James, Magnetic electrical device.
  17. Yan, Yipeng; Bogert, Robert James, Method of manufacturing an electromagnetic component.
  18. Manoukian, Daniel Minas; Bogert, Robert James, Methods for manufacturing magnetic components having low probile layered coil and cores.
  19. Yan, Yipeng; Bogert, Robert James; Manoukian, Daniel Minas, Miniature power inductor and methods of manufacture.
  20. Rutherglen, Christopher Michael, Photolithography based fabrication of 3D structures.
  21. Zhou, Chongwu; Ryu, Koungmin; Badmaev, Alexander; Wang, Chuan, Radio frequency devices based on carbon nanomaterials.
  22. Verdegan, Barry M.; Schwandt, Brian; Jeung, Soondeuk; Wieczorek, Mark T., Surface coalescers.
  23. Green, Alexander A.; Hersam, Mark C., Transparent electrical conductors prepared from sorted carbon nanotubes and methods of preparing same.
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