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Methods and systems for thermal energy recovery from production of solid carbon materials by reducing carbon oxides

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • C01B-031/02
  • F22B-001/22
  • B01J-019/02
  • B01J-019/24
출원번호 US-0389675 (2013-03-15)
등록번호 US-9731970 (2017-08-15)
국제출원번호 PCT/US2013/000076 (2013-03-15)
국제공개번호 WO2013/158159 (2013-10-24)
발명자 / 주소
  • Noyes, Dallas B.
출원인 / 주소
  • Seerstone LLC
대리인 / 주소
    TraskBritt P.C.
인용정보 피인용 횟수 : 0  인용 특허 : 207

초록

A method of thermal energy recovery from production of at least one solid carbon material comprises reacting at least one carbon oxide material and at least one gaseous reducing material at a temperature of greater than or equal to about 400° C., at a pressure greater than or equal to about 1×105 pa

대표청구항

1. A method of thermal energy recovery from production of at least one solid carbon material, the method comprising: reacting at least one carbon oxide material with at least one gaseous reducing material at a temperature of greater than or equal to about 400° C., at a pressure of greater than or eq

이 특허에 인용된 특허 (207)

  1. Raffaelle, Ryne P.; Jenkins, Phillip; Wilt, David; Scheiman, David; Chubb, Donald; Castro, Stephanie, Alpha voltaic batteries and methods thereof.
  2. Shibuya, Akiyoshi; Kawata, Keiichi; Arakawa, Kohei; Hata, Kenji; Yumura, Motoo, Apparatus and method for producing aligned carbon-nanotube aggregates.
  3. Biris, Alexandru Sorin; Biris, Alexandru Radu; Lupu, Dan; Wilkes, Jon Gardner; Buzatu, Dan Alexander; Miller, Dwight Wayne; Darsey, Jerry A., Apparatus and methods for synthesis of large size batches of carbon nanostructures.
  4. Biris,Alexandru Sorin; Biris,Alexandru Radu; Lupu,Dan; Wilkes,Jon Gardner; Buzatu,Dan Alexander; Miller,Dwight Wayne; Darsey,Jerry A., Apparatus and methods for synthesis of large size batches of carbon nanostructures.
  5. Pedersen, Peter S.; Yakobson, Dennis L., Apparatus and methods for the production of ammonia and Fischer-Tropsch liquids.
  6. Jang, Suk-Won; Hwang, Ho-Soo, Apparatus for manufacturing carbon nanotubes and method of manufacturing carbon nanotubes with the same.
  7. W. Harry Mandeville ; Larry K. Truesdale ; Howard Tennent, Apparatus for the production of carbon fibrils by catalysis and methods thereof.
  8. Smalley, Richard E.; Colbert, Daniel T.; Dai, Hongjie; Liu, Jie; Rinzler, Andrew G.; Hafner, Jason H.; Smith, Ken; Guo, Ting; Nikolaev, Pavel; Thess, Andreas, Array of fullerene 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, Array of single-wall carbon nanotubes.
  10. Lauder Alan (Newark DE), Barium- and ruthenium-containing perovskite catalysts.
  11. Baker R. Terry K. (86 Lee Rd. - 827 Opelika AL 36801) Rodriguez Nelly M. (86 Lee Rd. - 827 Opelika AL 36801), Carbon fiber structures having improved interlaminar properties.
  12. 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.
  13. Snyder Carl ; Mandeville W. Harry ; Tennent Howard G. ; Truesdale Larry K. ; Barber James J., Carbon fibrils.
  14. Snyder Carl ; Mandeville W. Harry ; Tennent Howard G. ; Truesdale Larry K. ; Barber James J., Carbon fibrils.
  15. Tennent Howard G. (Kennett Square PA) Barber James J. (Arlington MA) Hoch Robert (Middle Village NY), Carbon fibrils, method for producing same and adhesive compositions containing same.
  16. Tennent Howard G. (Kennett Square PA) Barber James J. (Arlington MA) Hoch Robert (Middle Village NY), Carbon fibrils, method for producing same and adhesive compositions containing same.
  17. Tennent Howard G. (Kennett Square PA) Barber James J. (Arlington MA) Hoch Robert (Middle Village NY), Carbon fibrils, method for producing same and adhesive compositions containing same.
  18. Tennent Howard G. (Kennett Square PA), Carbon fibrils, method for producing same and compositions containing same.
  19. Kawakami, Tomonori; Hiramatsu, Mitsuo, Carbon nano tube processing method, processing apparatus, and carbon nano tube dispersion liquid, carbon nano tube powder.
  20. Fujioka, Yuichi; Yasutake, Akinori; Setoguchi, Toshihiko; Mochida, Isao; Yoon, Seong-Ho, Carbon nano-fibrous rod, fibrous nanocarbon, and method and apparatus for producing fibrous nanocarbon.
  21. Chang, Hyuk; Pak, Chan-ho; Wang, Jian Nong, Carbon nanosphere with at least one opening, method for preparing the same, carbon nanosphere-impregnated catalyst using the carbon nanosphere, and fuel cell using the catalyst.
  22. Chang, Hyuk; Pak, Chan-ho; Wang, Jian Nong, Carbon nanosphere with at least one opening, method for preparing the same, carbon nanosphere-impregnated catalyst using the carbon nanosphere, and fuel cell using the catalyst.
  23. Narkis, Todd R.; Marcus, Matt S.; Lagally, Max G.; Eriksson, Mark A., Carbon nanotube Schottky barrier photovoltaic cell.
  24. Wong, Stanislaus S.; Banerjee, Sarbajit, Carbon nanotube adducts and methods of making the same.
  25. Wong,Stanislaus S.; Banerjee,Sarbajit; Kahn,Michael G. C., Carbon nanotube adducts and methods of making the same.
  26. Jiang, KaiLi; Fan, ShouShan; Li, QunQing, Carbon nanotube array and method for forming same.
  27. Liu,Liang; Fan,ShouShan, Carbon nanotube array and method for forming same.
  28. Jiang, Kai-Li; Liu, Kai; Fan, Shou-Shan, Carbon nanotube arrays.
  29. Jiang, Kai-Li; Liu, Kai; Fan, Shou-Shan, Carbon nanotube arrays.
  30. Taki, Yusuke; Shinohara, Kiyoaki, Carbon nanotube assembly and manufacturing method thereof.
  31. Hirai, Takayoshi; Nishino, Hidekazu; Sato, Kenichi; Okamoto, Naoyo, Carbon nanotube assembly and process for producing the same.
  32. Ji Soon Ihm KR, Carbon nanotube device.
  33. Hirakata,Masaki; Isozaki,Takashi; Kishi,Kentaro; Shigematsu,Taishi; Manabe,Chikara; Anazawa,Kazunori; Watanabe,Hiroyuki; Shimizu,Masaaki, Carbon nanotube device, method of manufacturing the same, and carbon nanotube transfer body.
  34. Li,Jun; Meyyappan,Meyya, Carbon nanotube interconnect.
  35. Shiraki, Shuichi; Murai, Takeji; Nakagawa, Yuzou, Carbon nanotube or carbon nanofiber production apparatus and recovery apparatus.
  36. McElrath, Kenneth O.; Yang, Yuemei; Smith, Kenneth A.; Hu, Xiaodong, Carbon nanotube particulates, compositions and use thereof.
  37. Hongjie Dai ; Calvin F. Quate ; Hyongsok Soh ; Jing Kong, Carbon nanotube structures made using catalyst islands.
  38. Choi, Jae-young; Pak, Chan-ho; Doo, Seok-gwang; Lee, Jeong-hee; Lee, Young-hee; An, Kay-hyeok; Kim, Sung-jin, Carbon nanotube, support catalyst, method of preparing the support catalyst and a fuel cell comprising the support catalyst.
  39. Wang, Yong; Chin, Ya-Huei; Gao, Yufei, Carbon nanotube-containing catalysts, methods of making, and reactions catalyzed over nanotube catalysts.
  40. Chen,Ping; Xiong,Zhitao; Lin,Jianyi, Carbon nanotubes fabrication and hydrogen production.
  41. Yufei Gao ; Jun Liu, Carbon nanotubes on a substrate.
  42. Abatzoglou, Nicolas; Gitzhofer, François; Blanchard, Jasmin; De Oliveira Vigier, Karine; Gravelle, Denis, Carbon sequestration and dry reforming process and catalysts to produce same.
  43. Ichikawa Masaru,JPX ; Ohnishi Ryuichiro,JPX ; Wang Linsheng,JPX, Catalyst for the conversion of low carbon number aliphatic hydrocarbons to higher carbon number hydrocarbons, process for preparing the catalyst and process using the catalyst.
  44. Masaru Ichikawa JP; Ryuichiro Ohnishi JP; Linsheng Wang JP, Catalyst for the conversion of low carbon number aliphatic hydrocarbons to higher carbon number hydrocarbons, process for preparing the catalyst and process using the catalyst.
  45. Moy David (Winchester MA) Hoch Robert (Hensonville NY), Catalyst supports, supported catalysts and methods of making and using the same.
  46. Moy David ; Hoch Robert, Catalyst supports, supported catalysts and methods of making and using the same.
  47. Silvy, Ricardo Prada; Pirlot, Christophe; Culot, Benedicte, Catalyst system for a multi-walled carbon nanotube production process.
  48. Sun, Xiao-Dong; Singh, Navjot; Levinson, Lionel Monty, Catalyst system for producing carbon fibrils.
  49. Sun, Xiao-Dong; Singh, Navjot; Levinson, Lionel Monty, Catalyst system for producing carbon fibrils.
  50. Smalley,Richard E.; Hafner,Jason H.; Colbert,Daniel T.; Smith,Ken, Catalytic growth of single-and double-wall carbon nanotubes from metal particles.
  51. Smalley,Richard E.; Hafner,Jason H.; Colbert,Daniel T.; Smith,Kenneth, Catalytic growth of single-and double-wall carbon nanotubes from metal particles.
  52. Smalley, Richard E.; Hafner, Jason H.; Colbert, Daniel T.; Smith, Ken, Catalytic growth of single-wall carbon nanotubes from metal particles.
  53. Hartig Klaus (Ronneburg DEX) Seiler Reiner (Hanau DEX), Cathode sputtering apparatus.
  54. 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.
  55. 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.
  56. Margrave, John L.; Mickelson, Edward T.; Hauge, Robert; Boul, Peter; Huffman, Chad; Liu, Jie; Smalley, Richard E.; Smith, Ken; Colbert, Daniel T., Chemically modifying single wall carbon nanotubes to facilitate dispersal in solvents.
  57. Smalley, Richard E.; Colbert, Daniel T.; Dai, Hongjie; Liu, Jie; Rinzler, Andrew G.; Hafner, Jason H.; Smith, Ken; Guo, Ting; Nikolaev, Pavel; Thess, Andreas, Continuous fiber of fullerene nanotubes.
  58. Colbert,Daniel T.; Dai,Hongjie; Hafner,Jason H.; Rinzler,Andrew G.; Smalley,Richard E., Continuous fiber of single-wall carbon nanotubes.
  59. 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, Continuous fiber of single-wall carbon nanotubes.
  60. Wei, Fei; Wang, Yao; Luo, Guohua; Yu, Hao; Li, Zhifei; Qian, Weizhong; Wang, Zhanwen; Jin, Yong, Continuous mass production of carbon nanotubes in a nano-agglomerate fluidized-bed and the reactor.
  61. Merkulov,Vladimir I.; Melechko,Anatoli V.; Guillorn,Michael A.; Lowndes,Douglas H.; Simpson,Michael L., Controlled alignment catalytically grown nanostructures.
  62. Gimzewski, James; Schlittler, Reto; Seo, Jin Won, Crystals comprising single-walled carbon nanotubes.
  63. Anthony Thomas R. (Schenectady NY) Cline Harvey E. (Schenectady NY), Deep diode atomic battery.
  64. Uebber Norbert (Langenfeld DEX), Direct current electric arc furnace.
  65. Ajayan, Pulickel M.; Wei, Bingqing; Zhu, Hongwei; Xu, Cailu; Wu, Dehai, Direct synthesis of long single-walled carbon nanotube strands.
  66. Margrave, John L.; Mickelson, Edward T.; Hauge, Robert; Boul, Peter; Huffman, Chad; Liu, Jie; Smalley, Richard E.; Smith, Ken; Colbert, Daniel T., Dispersions and solutions of fluorinated single-wall carbon nanotubes.
  67. Mathur Pravin C. (White Plains NY) Du Zhiyou (Croton-on-Hudson NY) Selines Ronald J. (North Salem NY), Electric arc furnace post combustion method.
  68. Howard,Kip A., Electrically conductive additive system and method of making same.
  69. Firmin Jean-Luc (Poitiers FRX) Alexandre Alain (Poitiers FRX), Electrochemical battery having high energy per unit mass.
  70. Joshi Ashok V. (Salt Lake City UT), Electrolyte assembly for oxygen generating device and electrodes therefor.
  71. Shen Yousheng (Salt Lake City UT) Joshi Ashok V. (Salt Lake City UT) Taylor Dale M. (Salt Lake City UT) Boettcher Michael J. (West Jordan UT) Krist Kevin (Palatine IL) Virkar Anil V. (Salt Lake City , Enhancement of mechanical properties of ceramic membranes and solid electrolytes.
  72. Smalley, Richard E.; Sivarajan, Ramesh, Entangled single-wall carbon nanotube solid material and methods for making same.
  73. Moy David (Winchester MA) Chishti Asif (Lowell MA), Fibril aggregates and method for making same.
  74. Moy David ; Chishti Asif, Fibril aggregates and method for making same.
  75. W. Harry Mandeville ; Larry K. Truesdale ; Howard Tennent, Fibrils.
  76. Jangbarwala, Juzer, Fibrous composite catalytic structures and their use in chemical reactors.
  77. Whipp Roy H. (Miami FL), Fluidized bed direct reduction plant.
  78. Brotz Gregory R. (P.O. Box 1322 Sheboygan WI 53081), Foamed energy cell.
  79. Brotz Gregory R. (218 Pioneer Rd. Sheboygan WI 53081), Foamed nuclear cell.
  80. Tanaka Shun-ichiro (1-35-12 ; Hongo ; Seya-ku Yokohama-shi ; Kanagawa-ken JPX), Fullerene composite.
  81. Smalley,Richard E.; Colbert,Daniel T.; Dai,Hongjie; Liu,Jie; Rinzler,Andrew G.; Hafner,Jason H.; Smith,Ken; Guo,Ting; Nikolaev,Pavel; Thess,Andreas, Fullerene nanotube compositions.
  82. Fischer, Alan; Hoch, Robert; Moy, David; Niu, Chun-Ming; Ogata, Naoya; Tennent, Howard, Functionalized nanotubes.
  83. Margrave, John L.; Mickelson, Edward T.; Hauge, Robert; Boul, Peter; Huffman, Chad; Liu, Jie; Smalley, Richard E.; Smith, Ken; Colbert, Daniel T., Functionalized single-wall carbon nanotubes.
  84. Smalley, Richard E.; Smith, Ken A.; Colbert, Daniel T.; Nikolaev, Pavel; Bronikowski, Michael J.; Bradley, Robert K.; Rohmund, Frank, Gas-phase nucleation and growth of single-wall carbon nanotubes from high pressure CO.
  85. Iijima Sumio,JPX, Graphite filaments having tubular structure and method of forming the same.
  86. Polverejan, Mihai; Marotta, Christopher; Baker, R. Terry K., Graphite nanocatalysts.
  87. Little Roger G. (Bedford MA) Burke Edward A. (Woburn MA), High energy density nuclide-emitter, voltaic-junction battery.
  88. Baker R. Terry K. (86 Lee Rd. 827 Opelika AL 36801) Rodriguez Nelly M. (86 Lee Rd. 827 Opelika AL 36801), High performance carbon filament structures.
  89. Weihs, Timothy P.; Cammarata, Robert; Chien, Chia-Ling; Shang, Changhe, High performance nanostructured materials and methods of making the same.
  90. Nishino, Hitoshi; Nakaoka, Haruyuki; Okimi, Katsuhide; Nishida, Ryoichi; Matsui, Takeo, Iron-carbon composite, carbonaceous material comprising said iron-carbon composite and process for preparing the same.
  91. Nishino, Hitoshi; Nakaoka, Haruyuki; Okimi, Katsuhide; Nishida, Ryoichi; Matsui, Takeo, Iron-carbon composite, carbonaceous material comprising said iron-carbon composite and process for preparing the same.
  92. Conley Jerry J. (Waseca MN) Mortensen Gary B. (Waseca MN), Light emitting polymer electrical energy source.
  93. 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.
  94. Setoguchi, Toshihiko; Fujioka, Yuichi; Tsuchiyama, Yoshihiko; Yasutake, Akinori; Noda, Matsuhei; Kobayashi, Norihisa; Nishida, Ryoichi; Nishino, Hitoshi; Okimi, Katsuhide; Hachiya, Akihiro, Manufacturing method for a carbon nanomaterial, a manufacturing apparatus for a carbon nanomaterial, and manufacturing facility for a carbon nanomaterial.
  95. Petrik, Viktor I., Mass production of carbon nanostructures.
  96. Pham-Huu, Cuong; Ledoux, Marc-Jacques; Begin, Dominique; Nguyen, Patrick; Amadou, Julien; Tessonnier, Jean-Philippe, Materials based on tangled nanotubes or nanofibres, preparation method thereof and use of same.
  97. 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.
  98. Lucadamo Gene A. (Macungie PA), Membrane-aided distillation for carbon dioxide and hydrocarbon separation.
  99. Abdelmalek Fawzy T. (12807 Willowyck Dr. St. Louis MO 63146), Method and apparatus for flue gas cleaning by separation and liquefaction of sulfur dioxide and carbon dioxide.
  100. Daniel E. Resasco ; Boonyarach Kitiyanan ; Walter Alvarez ; Leandro Balzano, Method and apparatus for producing carbon nanotubes.
  101. Resasco, Daniel E.; Kitiyanan, Boonyarach; Alvarez, Walter; Balzano, Leandro, Method and apparatus for producing carbon nanotubes.
  102. Jiang,KaiLi; Fan,Shoushan; Li,QunQing, Method for fabricating carbon nanotube yarn.
  103. Tohji, Kazuyuki; Satoh, Yoshinori; Kikuyama, Hirohisa; Waki, Masahide; Hashiguchi, Shinji; Tashiro, Yasutaka, Method for forming a carbon nanotube aggregate.
  104. Smalley,Richard E.; Colbert,Daniel T.; Dai,Hongjie; Liu,Jie; Rinzler,Andrew G.; Hafner,Jason H.; Smith,Ken; Guo,Ting; Nikolaev,Pavel; Thess,Andreas, Method for forming a patterned array of fullerene nanotubes.
  105. Colbert,Daniel T.; Dai,Hongjie; Hafner,Jason H.; Rinzler,Andrew G.; Smalley,Richard E., Method for forming an array of single-wall carbon nanotubes and compositions thereof.
  106. 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 forming composites of sub-arrays of single-wall carbon nanotubes.
  107. 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 growing continuous fiber.
  108. 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 growing single-wall carbon nanotubes utlizing seed molecules.
  109. Suekane, Osamu; Nosaka, Toshikazu; Nakayama, Yoshikazu; Pan, Lujun; Nagasaka, Takeshi; Sakai, Toru; Tsuchiya, Hiroyuki; Goto, Toshiki; Li, Xu, Method for high-efficiency synthesis of carbon nanostructure.
  110. Harutyunyan,Avetik; Pradhan,Bhabendra K.; Eklund,Peter C., Method for low temperature synthesis of single wall carbon nanotubes.
  111. Huang, Houjin, Method for making field-effect transistor using carbon nanotube.
  112. Yang,Yuemei; Grosboll,Martin P.; Smith,Kenneth A., Method for making single-wall carbon nanotubes using supported catalysts.
  113. Ma,Jun; Moy,David; Tennent,Howard; Hoch,Robert; Fischer,Alan, Method for preparing catalyst supports and supported catalysts from single walled carbon nanotubes.
  114. Ma, Jun; Moy, David; Fischer, Alan; Hoch, Robert, Method for preparing catalysts supported on carbon nanotubes networks.
  115. Ma, Jun; Tennent, Howard, Method for preparing uniform single walled carbon nanotubes.
  116. 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.
  117. Nolan Peter E. ; Cutler Andrew H. ; Lynch David G., Method for producing encapsulated nanoparticles and carbon nanotubes using catalytic disproportionation of carbon monoxi.
  118. Nolan Peter E. ; Cutler Andrew H. ; Lynch David G., Method for producing encapsulated nanoparticles and carbon nanotubes using catalytic disproportionation of carbon monoxi.
  119. Cleveland Joseph J. (Dushore PA), Method for producing high strength low expansion cordierite bodies.
  120. Kawakami,Soichiro; Inoue,Katsuhiko; Sano,Hitomi; Suzuki,Nobuyuki, Method for producing nano-carbon materials.
  121. Tada, Akio; Nakamura, Satoru; Nakamura, Tetsunari; Kakihara, Hajime; Togo, Yoshitaka; Koseki, Kikuo; Takasuna, Hiroyuki, Method for producing nanocarbon and catalytic reaction device for producing nanocarbon.
  122. Murray Christopher Bruce ; Sun Shouheng, Method for producing nanoparticles of transition metals.
  123. 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 self-assembled objects comprising single-wall carbon nanotubes and compositions thereof.
  124. Noyes, Dallas B., Method for producing solid carbon by reducing carbon oxides.
  125. French,Roger Harquail; Gierke,Timothy; Harmer,Mark Andrew; Jagota,Anand; Lustig,Steven Raymond; Mehta,Rakesh H.; Hietpas,Paula Beyer; Onoa,Bibiana, Method for providing nano-structures of uniform length.
  126. 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 purification of as-produced single-wall carbon nanotubes.
  127. Bordere, Serge; Cochard, Daniel; Dutilh, Eric; Gaillard, Patrice; Plee, Dominique, Method for synthesis of carbon nanotubes.
  128. Bordere, Serge; Gaillard, Patrice; Baddour, Carole, Method for synthesis of carbon nanotubes.
  129. Geus John W. (GJ Bilthoven MI NLX) Linowski John W. (Midland MI), Method for the preparation of carbon filaments.
  130. Edwin, Emil; Arnesen, Tore; Aaser, Knut Ivar; Rytter, Erling; Johansen, Johan Arnold; Fors, John, Method for the production of particulate carbon products.
  131. Messano,Al, Method of agile reduction of radar cross section using electromagnetic channelization.
  132. Mitchell, Brian S.; Fink, Mark J.; Heintz, Andrew S., Method of forming stable functionalized nanoparticles.
  133. Kawabata, Akio, Method of growing carbon nanotube and carbon nanotube growing system.
  134. Resasco, Daniel E.; Kitiyanan, Boonyarach; Harwell, Jeffrey H.; Alvarez, Walter, Method of making carbon nanotubes.
  135. Gao,Yufei; Liu,Jun, Method of making carbon nanotubes on a substrate.
  136. Fisher Alan ; Hoch Robert ; Moy David ; Niu Chunming ; Ogata Naoya,JPX ; Tennent Howard ; McCarthy Thomas, Method of making functionalized nanotubes.
  137. Smalley Richard E. ; Colbert Daniel T. ; Guo Ting ; Rinzler Andrew G. ; Nikolaev Pavel ; Thess Andreas, Method of making ropes of single-wall carbon nanotubes.
  138. Hikata, Takeshi, Method of manufacturing carbon nanostructure.
  139. Ono Shigeki,JPX, Method of producing carbon.
  140. Resasco Daniel E. ; Kitiyanan Boonyarach ; Harwell Jeffrey H. ; Alvarez Walter, Method of producing carbon nanotubes.
  141. Resasco,Daniel E.; Kitiyanan,Boonyarach; Harwell,Jeffrey H.; Alvarez,Walter, Method of producing single-walled carbon nanotubes.
  142. Higashi, Tomoyoshi; Kambara, Eiji; Tsuji, Katsuyuki, Method of producing vapor-grown carbon fibers.
  143. Ebbesen Thomas (Tokyo JPX) Ajayan Pulickel M. (Tokyo JPX) Hiura Hidefumi (Tokyo JPX), Method of purifying carbon nanotubes.
  144. Moy David ; Chishti Asif, Methods and catalysts for the manufacture of carbon fibrils.
  145. Furukawa,Toshiharu; Hakey,Mark Charles; Holmes,Steven John; Hotak,David Vaclav; Koburger, III,Charles William; Mitchell,Peter H.; Nesbit,Larry Alan, Methods and structures for promoting stable synthesis of carbon nanotubes.
  146. Harutyunyan, Avetik; Tokune, Toshio; Fernandez, Elena Mora, Methods for controlling the quality of metal nanocatalyst for growing high yield carbon nanotubes.
  147. Harutyunyan, Avetik; Fernandez, Elena Mora; Tokune, Toshio, Methods for determining particle size of metal nanocatalyst for growing carbon nanotubes.
  148. Harutyunyan, Avetik; Mora, Elena; Tokune, Toshio, Methods for growing long carbon single-walled nanotubes.
  149. Sakurabayashi,Yasunori; Kondo,Takuya; Yamazawa,Yasushi; Suzuki,Yoshinao; Monthioux,Marc; Lay,Mikako LE., Methods for manufacturing multi-wall carbon nanotubes.
  150. 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, Methods for producing composites of single-wall carbon nanotubes and compositions thereof.
  151. Harutyunyan, Avetik, Methods for production of carbon nanostructures.
  152. Strano, Michael S.; Usrey, Monica; Barone, Paul; Dyke, Christopher A.; Tour, James M.; Kittrell, W. Carter; Hauge, Robert H; Smalley, Richard E.; Marek, legal representative, Irene Marie, Methods for selective functionalization and separation of carbon nanotubes.
  153. Margrave, John L.; Mickelson, Edward T.; Hauge, Robert; Boul, Peter; Huffman, Chad; Liu, Jie; Smalley, Richard E.; Smith, Ken; Colbert, Daniel T., Methods of chemically derivatizing single-wall carbon nanotubes.
  154. Niu,Chunming; Moy,David; Chishti,Asif; Hoch,Robert, Methods of oxidizing multiwalled carbon nanotubes.
  155. Cable Thomas L. ; Petrik Michael A. ; Lee Benson P., Microspheres for combined oxygen separation, storage and delivery.
  156. Wei, Fei; Liu, Yi; Qian, Weizhong; Luo, Guohua, Multistage reactors for continuous production of carbon nanotubes.
  157. Dubin, Valery M.; Dominguez, Juan E.; Cheng, Chin-Chang, Nanotube growth and device formation.
  158. Bianco, Alberto; Pantarotto, Davide; Kostarelos, Kostas; Prato, Maurizio, Non-covalent complexes comprising carbon nanotubes.
  159. Burk Maksymilian (Los Angeles CA) Blumenthal Jack L. (Los Angeles CA), Novel carbonaceous material and process for producing a high BTU gas from this material.
  160. Brotz Gregory R. (P.O. Box 1322 Sheboygan WI 53081), Photovoltaic material.
  161. Lieber Charles M. ; Wong Eric, Preparation of carbide nanorods.
  162. Resasco, Daniel E.; Kitiyanan, Boonyarach; Alvarez, Walter E.; Balzano, Leandro, Process and apparatus for producing single-walled carbon nanotubes.
  163. Resasco,Daniel E.; Kitiyanan,Boonyarach; Alvarez,Walter E.; Balzano,Leandro, Process and apparatus for producing single-walled carbon nanotubes.
  164. Paparizos Christos (Willowick OH) Shaw Wilfrid G. (Lyndhurst OH), Process for converting methane and/or natural gas to more readily transportable materials.
  165. Tour,James M.; Dyke,Christopher A., Process for functionalizing carbon nanotubes under solvent-free conditions.
  166. Iaccino, Larry L.; Stavens, Elizabeth L.; Sangar, Neeraj, Process for methane conversion.
  167. Moy David ; Chishti Asif, Process for producing single wall nanotubes using unsupported metal catalysts.
  168. Moy, David; Chishti, Asif, Process for producing single wall nanotubes using unsupported metal catalysts and single wall nanotubes produced according to this method.
  169. Moy,David; Chishti,Asif, Process for producing single wall nanotubes using unsupported metal catalysts and single wall nanotubes produced according to this method.
  170. Beguin,Fran챌ois; Delpeux,Sandrine; Szostak,Katarzyna, Process for the mass production of multiwalled carbon nanotubes.
  171. Smalley, Richard E.; Hauge, Robert H.; Willis, Peter Athol; Kittrell, W. Carter, Process utilizing pre-formed cluster catalysts for making single-wall carbon nanotubes.
  172. Smalley,Richard E.; Hauge,Robert H.; Willis,Peter Athol; Kittrell,W. Carter, Process utilizing seeds for making single-wall carbon nanotubes.
  173. Fridman, Alexander; Gutsol, Alexander F.; Cho, Young I., Production and uses of carbon suboxides.
  174. Iaccino, Larry L.; Stavens, Elizabeth L.; Mohr, Gary D.; Vincent, Matthew J., Production of alkylated aromatic hydrocarbons from methane.
  175. Muenger James R. (Beacon NY) Guptill ; Jr. Frank E. (Fishkill NY), Production of ammonia synthesis gas from solid carbonaceous fuels.
  176. Iaccino, Larry L.; Stavens, Elizabeth L.; Vincent, Matthew J., Production of liquid hydrocarbons from methane.
  177. Wilkes,Jon Gardner; Buzatu,Dan Alexander; Miller,Dwight Wayne; Biris,Alexandru Sorin; Biris,Alexandru Radu; Lupu,Dan; Darsey,Jerry A., Production of nanostructures by curie point induction heating.
  178. Russell Virginia (435 Crescent Ave. Buffalo NY 14214), Protecting organisms and the environment from harmful radiation by controlling such radiation and safely disposing of it.
  179. Jantz Scott D. (Jacksonsville FL) Aton Thomas J. (Dallas TX), Radioisotope power cells.
  180. Mannik Lennart,CAX ; Ruda Harry E.,CAX ; Peralta Samuel B.,CAX ; Chu Frank Y.,CAX, Radioisotope-powered semiconductor battery.
  181. Kim, Sung Soo; Jeon, Jong Kwan, Reaction chamber for manufacturing a carbon nanotube, apparatus for manufacturing the carbon nanotube and system for manufacturing the carbon nanotube.
  182. Tennent Howard ; Moy David ; Niu Chun-Ming, Rigid porous carbon structures, methods of making, methods of using and products containing same.
  183. Tennent, Howard; Moy, David; Niu, Chun-Ming, Rigid porous carbon structures, methods of making, methods of using and products containing same.
  184. Smalley,Richard E.; Hafner,Jason H.; Colbert,Daniel T.; Smith,Ken A., Ropes comprised of single-walled and double-walled carbon nanotubes.
  185. Strano, Michael S.; Usrey, Monica; Barone, Paul; Dyke, Christopher A.; Tour, James M.; Kittrell, W. Carter; Hauge, Robert H.; Smalley, Richard E., Selective functionalization of carbon nanotubes.
  186. Dai Hongjie ; Fan Shoushan,CNX ; Chapline Michael ; Franklin Nathan ; Tombler Thomas, Self-oriented bundles of carbon nanotubes and method of making same.
  187. Cota Albert O. (17475 Flanders St. Granada Hills CA 91344) Reed John J. (5052 Meadow Wood Ave. Lakewood CA 90712), Self-sustaining power module.
  188. Margrave, John L.; Mickelson, Edward T.; Hauge, Robert; Boul, Peter; Huffman, Chad; Liu, Jie; Smalley, Richard E.; Smith, Ken; Colbert, Daniel T., Sidewall derivatized carbon nanotubes.
  189. Maruyama, Ryuchiro; Iwai, Toshinori; Kajiura, Hisashi; Kadono, Koji; Kurihara, Kenichi, Single-wall carbon nanotube heterojunction.
  190. Smalley,Richard E.; Smith,Ken A.; Colbert,Daniel T.; Nikolaev,Pavel; Bronikowski,Michael J.; Bradley,Robert K.; Rohmund,Frank, Single-wall carbon nanotubes from high pressure CO.
  191. Hata, Kenji; Iijima, Sumio; Yumura, Motoo; Futaba, Don N., Single-walled carbon nanotube and aligned single-walled carbon nanotube bulk structure, and their production process, production apparatus and application use.
  192. Hata, Kenji; Iijima, Sumio; Yumura, Motoo; Futaba, Don N., Single-walled carbon nanotube and aligned single-walled carbon nanotube bulk structure, and their production process, production apparatus and application use.
  193. Yang,Yuemei; Grosboll,Martin; Vega, Jr.,Eduardo, Spheroidal aggregates comprising single-wall carbon nanotubes and method for making the same.
  194. Pruett, James Gary, Substantially pure bulk pyrocarbon and methods of preparation.
  195. Bening,Robert C.; McCarthy,Thomas J., Surface treatment of carbon microfibers.
  196. Rich, Joseph William; Subramaniam, Vish V.; Plonjes, Elke Christina; Lempert, Walter Reuben, Synthesis method for producing carbon clusters and structured carbon clusters produced thereby.
  197. Vasenkov, Aleksey V., Synthesis of carbon nanotubes by selectively heating catalyst.
  198. Sun, Shouheng, Synthesis of magnetite nanoparticles and the process of forming Fe-based nanomaterials.
  199. Shaffer,Milo S P; Kinloch,Ian; Windle,Alan H, Synthesis of nanoscaled carbon materials.
  200. Harutyunyan, Avetik, Synthesis of small diameter single-walled carbon nanotubes.
  201. Funk ; Harald F., System for treating and recovering energy from exhaust gases.
  202. Lashmore, David; Brown, Joseph J.; Dean, Jr., Robert C.; Antoinette, Peter L., Systems and methods for synthesis of extended length nanostructures.
  203. Tennent Howard (Kennett Square PA) Hausslein Robert W. (Lexington MA) Leventis Nicholas (Somerville MA) Moy David (Winchester MA), Three dimensional macroscopic assemblages of randomly oriented carbon fibrils and composites containing same.
  204. Liu, Fuchen; Arhancet, Juan; Coleman, James P.; McGrath, Martin P., Transition metal-containing catalysts and processes for their preparation and use as oxidation and dehydrogenation catalysts.
  205. Andoh, Kohji; Chiola, Davide, Trench Schottky barrier diode.
  206. Takahashi, Tatsuhito; Isoo, Tsuneo; Kato, Makoto; Tanabe, Haruyoshi, Underwater immersion block and method to produce the same.
  207. Li,Wenzhi; Wen,Jian Guo; Ren,Zhi Feng, Varied morphology carbon nanotubes and method for their manufacture.
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