이 특허를 인용한 특허 (114)

1. Waldoefner, Norbert; Jordan, Andreas, Agglomerating magnetic alkoxysilane-coated nanoparticles.

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2. Waldöfner, Norbert; Jordan, Andreas, Agglomerating magnetic alkoxysilane-coated nanoparticles.

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3. Grimes, Craig A.; Dickey, Elizabeth, Apparatus and method for dispersing nano-elements to assemble a device.

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4. Grass, Robert N.; Stark, Wendelin Jan, Carbon coated magnetic nanoparticles and their use in separation processes.

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5. Jang, Jyongsik; Oh, Joon Hak; Kim, Dong Cheol, Carbon nano-particle and method of preparing the same and transparent conductive polymer composite containing the same.

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6. Hwang, Gan-Lin; Chang, Chao-Kang, Carbon nanocapsule supported catalysts.

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7. Hwang, Gan-Lin; Chang, Chao-Kang; Tsai, Shih-Jung; Day, Tzy-Chin, Carbon nanocapsule thin film and preparation method thereof.

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8. Dai,Hongjie; Kong,Jing, Carbon nanotube devices.

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9. Dai,Hongjie; Franklin,Nathan R., Carbon nanotube growth.

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10. Tour, James M.; Bahr, Jeffrey L.; Yang, Jiping, Carbon nanotubes derivatized with diazonium species.

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11. Lian, Kun; Wu, Qinglin, Carbon-encased metal nanoparticles and sponges as wood/plant preservatives or strengthening fillers.

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12. Natan,Michael J.; Mallouk,Thomas E., Colloidal rod particles as nanobar codes.

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13. Ford, William E.; Wessels, Jurina; Yasuda, Akio; Barger, Jack, Composite materials comprising carbon nanotubes and metal carbonates.

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14. Gazdzinski, Robert F., Computerized apparatus with ingestible probe.

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15. Gazdzinski, Robert F., Computerized information collection and processing apparatus.

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16. Gazdzinski, Robert F., Computerized information collection and processing apparatus.

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17. Gazdzinski, Robert F., Computerized information collection and processing apparatus and methods.

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18. Li, Yunjun, Curing binder material for carbon nanotube electron emission cathodes.

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19. Segal, Brent M.; Brock, Darren K.; Rueckes, Thomas, Device selection circuitry constructed with nanotube ribbon technology.

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20. Segal,Brent M.; Brock,Darren K.; Rueckes,Thomas, Device selection circuitry constructed with nanotube technology.

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21. Jaiprakash,Venkatachalam C.; Ward,Jonathan W.; Rueckes,Thomas; Segal,Brent M., Devices having horizontally-disposed nanofabric articles and methods of making the same.

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22. Jaiprakash,Venkatachalam C.; Ward,Jonathan W.; Rueckes,Thomas; Segal,Brent M., Devices having vertically-disposed nanofabric articles and methods of making the same.

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23. Dahl,Jeremy E.; Carlson,Robert M.; Liu,Shenggao, Diamondoid-containing capacitors.

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24. Dahl,Jeremy E.; Carlson,Robert M.; Liu,Shenggao, Diamondoid-containing field emission devices.

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25. Dahl,Jeremy E.; Carlson,Robert M.; Liu,Shenggao, Diamondoid-containing low dielectric constant materials.

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26. Dahl,Jeremy E.; Carlson,Robert M.; Liu,Shenggao, Diamondoid-containing materials for passivating layers in integrated circuit devices.

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27. Dahl, Jeremy E.; Carlson, Robert M.; Liu, Shenggao, Diamondoid-containing materials in microelectronics.

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28. Dahl,Jeremy E.; Carlson,Robert M.; Liu,Shenggao, Diamondoid-containing thermally conductive materials.

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29. Segal, Brent M.; Brock, Darren K.; Rueckes, Thomas, Electromechanical memory array using nanotube ribbons and method for making same.

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30. Segal,Brent M.; Brock,Darren K.; Rueckes,Thomas, Electromechanical memory array using nanotube ribbons and method for making same.

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31. Segal,Brent M.; Brock,Darren K.; Rueckes,Thomas, Electromechanical memory array using nanotube ribbons and method for making same.

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32. Segal, Brent M.; Brock, Darren K.; Rueckes, Thomas, Electromechanical memory having cell selection circuitry constructed with nanotube technology.

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33. Rueckes, Thomas; Segal, Brent M.; Bertin, Claude L., Electromechanical three-trace junction devices.

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34. Rueckes, Thomas; Segal, Brent M.; Brock, Darren K., Electromechanical three-trace junction devices.

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35. Rueckes,Thomas; Segal,Brent M.; Bertin,Claude, Electromechanical three-trace junction devices.

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36. Dorn Harry C. ; Stevenson Steven A., Endohedral metallofullerenes and method for making the same.

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37. Gazdzinski, Robert F., Endoscopic smart probe.

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38. Gazdzinski, Robert F., Endoscopic smart probe and method.

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39. Gazdzinski, Robert F., Endoscopic smart probe and method.

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40. Gazdzinski, Robert F., Endoscopic smart probe and method.

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41. Tsushima, Eiki; Murakami, Kazuyuki; Katagiri, Susumu, Fine carbon fiber-metal composite material and method for production thereof.

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42. Sun, Ya-Ping, Fluorescent carbon nanoparticles.

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43. Gogotsi, Yury; Korneva, Guzeliya; Friedman, Gennady, Functional nanoparticle filled carbon nanotubes and methods of their production.

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44. Nakayama, Yoshikazu; Harada, Akio; Akita, Seiji, Fusion-welded nanotube surface signal probe and method of attaching nanotube to probe holder.

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45. Nosaka Toshikazu,JPX ; Sakurai Yoshiaki,JPX ; Natsukawa Kazuki,JPX ; Yotsuya Tsutomu,JPX ; Kawabata Shunsaku,JPX ; Nishida Katsumi,JPX ; Nishikawa Kazuhiro,JPX ; Mori Kiyohiro,JPX ; Kiyama Hiromi,JPX, Gas sensor.

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46. Xu BingShe,JPX ; Tanaka Shun-ichiro,JPX, Graphite intercalation compound.

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47. Xu BingShe,JPX ; Tanaka Shun-ichiro,JPX, Graphite intercalation compound and production method thereof.

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48. Massey Richard J. ; Martin Mark T. ; Dong Liwen ; Lu Ming ; Fischer Alan ; Jameison Fabian ; Liang Pam ; Hoch Robert ; Leland Jonathan K., Graphitic nanotubes in luminescence assays.

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49. Massey, Richard J.; Martin, Mark T.; Dong, Liwen; Lu, Ming; Fischer, Alan; Jameison, Fabian; Liang, Pam; Hoch, Robert; Leland, Jonathan K., Graphitic nanotubes in luminescence assays.

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50. Massey,Richard J.; Martin,Mark T.; Dong,Liwen; Lu,Ming; Fischer,Alan; Jameison,Fabian; Liang,Pam; Hoch,Robert; Leland,Jonathan K., Graphitic nanotubes in luminescence assays.

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51. Richard J. Massey ; Mark T. Martin ; Liwen Dong ; Ming Lu ; Alan Fischer ; Fabian Jameison ; Pam Liang ; Robert Hoch ; Jonathan K. Leland, Graphitic nanotubes in luminescence assays.

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52. Gogotsi, Yury; Libera, Joseph A.; Yoshimura, Masahiro, Graphitic polyhederal crystals in the form of nanotubes, whiskers and nanorods, methods for their production and uses thereof.

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53. Dahl,Jeremy E.; Carlson,Robert M.; Liu,Shenggao, Heterodiamondoid-containing field emission devices.

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54. Segal, Brent M.; Brock, Darren K.; Rueckes, Thomas, Hybrid circuit having nanotube electromechanical memory.

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55. Segal, Brent M.; Brock, Darren K.; Rueckes, Thomas, Hybrid circuit having nanotube electromechanical memory.

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56. Segal,Brent M.; Brock,Darren K.; Rueckes,Thomas, Hybrid circuit having nanotube electromechanical memory.

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57. Luzzi, David E.; Smith, Brian W., Hybrid materials and methods for producing the same.

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58. Luzzi, David E.; Smith, Brian W., Hybrid materials and methods for producing the same.

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59. Luzzi,David E.; Smith,Brian W., Hybrid materials and methods for producing the same.

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60. Michael B. Miller ; Kent A. Murphy ; Harry C. Dorn ; Steven A. Stevenson ; Janice P. Stevenson ; Shufang Luo, Imaging and treatment method for body.

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61. Gazdzinski, Robert F., Ingestible probe with agent delivery.

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62. Nishi,Nobuyuki, Magnetic cluster, magnetic recording medium, method for fabricating a magnetic cluster and method for fabricating a magnetic recording medium.

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63. Mayes, Eric, Magnetic fluid.

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64. Robert John Wilson, Magnetic particles having two antiparallel ferromagnetic layers and attached affinity recognition molecules.

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65. Teughels, Stephanie; Vaes, Peter, Magnetic resonance imaging of single domain nanoparticles.

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66. Waldoefner, Norbert; Stief, Kerstin, Magnetic transducers.

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67. Waldoefner, Norbert; Stief, Kerstin, Magnetic transducers.

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68. Mayes, Eric Leigh; Tyler, Malvin Nicolas, Magnetizable device.

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69. Mayes, Eric Leigh; Tyler, Malvin Nicolas, Magnetizable device.

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70. Cumpston Brian H. ; Perry Joseph W. ; Marder Seth R., Method and apparatus for optical data storage using non-linear heating by excited state absorption for the alteration of pre-formatted holographic gratings.

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71. Khabashesku, Valery N.; Peng, Haiqing; Margrave, John L.; Margrave, legal representative, Mary Lou; Billups, Wilbur Edward; Ying, Yunming, Method for functionalizating carbon naontubes utilizing peroxides.

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72. Khabashesku,Valery N.; Peng,Haiqing; Margrave, legal representative,Mary Lou; Billups,Wilbur Edward; Ying,Yunming; Margrave, deceased,John L., Method for functionalizing carbon nanotubes utilizing peroxides.

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73. Harutyunyan,Avetik; Pradhan,Bhabendra K.; Eklund,Peter C., Method for low temperature synthesis of single wall carbon nanotubes.

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74. Harutyunyan, Avetik R.; Grigorian, Leonid, Method for producing carbonaceous articles.

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75. Natan, Michael J.; Mallouk, Thomas E.; Martin, Benjamin R.; Reiss, Brian D.; Dietz, Louis J.; Winkler, James L., Method of manufacture of colloidal rod particles as nanobar codes.

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76. Natan,Michael J.; Mallouk,Thomas E.; Martin,Benjamin R.; Reiss,Brian D.; Dietz,Louis J.; Winkler,James L., Method of manufacture of colloidal rod particles as nanobar codes.

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77. Stonas, Walter; Dietz, Louis J.; Walton, Ian D.; Natan, Michael J.; Winkler, James L., Method of manufacture of colloidal rod particles as nanobarcodes.

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78. Green Malcolm L. H.,GBX ; Tsang Shik C.,GBX, Method of opening and filling carbon nanotubes.

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79. Karl M. Robinson, Method of preparing a capacitor on integrated circuit device containing isolated dielectric material.

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80. Robinson Karl M., Method of preparing integrated circuit devices containing isolated dielectric material.

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81. Ward, Jonathan W.; Rueckes, Thomas; Segal, Brent M., Methods of making carbon nanotube films, layers, fabrics, ribbons, elements and articles.

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82. Rueckes, Thomas; Segal, Brent M.; Brock, Darren K., Methods of making electromechanical three-trace junction devices.

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83. Rueckes, Thomas; Segal, Brent M.; Brock, Darren K., Methods of making electromechanical three-trace junction devices.

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84. Rueckes, Thomas; Segal, Brent M., Methods of nanotube films and articles.

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85. Rueckes,Thomas; Segal,Brent M., Methods of nanotube films and articles.

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86. Rueckes,Thomas; Segal,Brent M., Methods of nanotubes films and articles.

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87. Gazdzinski, Robert F., Methods of processing data obtained from medical device.

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88. Gazdzinski, Robert F., Methods of processing data obtained from medical device.

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89. Ward,Jonathan W.; Rueckes,Thomas; Segal,Brent M., Methods of using pre-formed nanotubes to make carbon nanotube films, layers, fabrics, ribbons, elements and articles.

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90. Ward, Jonathan W.; Rueckes, Thomas; Segal, Brent M., Methods of using thin metal layers to make carbon nanotube films, layers, fabrics, ribbons, elements and articles.

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91. Mayes,Eric, Microwave absorbing structure.

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92. Kiang,Ching Hwa, Molecular nanowires from single walled carbon nanotubes.

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93. Lian, Kun, Nanoparticles, nanosponges, methods of synthesis, and methods of use.

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94. Lesniak, Christoph; Schiestel, Thomas; Schmidt, Helmut; Jordan, Andreas, Nanoscale particles having an iron oxide-containing core enveloped by at least two shells.

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95. Lesniak, Christoph; Schiestel, Thomas; Schmidt, Helmut; Jordan, Andreas, Nanoscale particles having an iron oxide-containing core enveloped by at least two shells.

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96. Cannon, P. Jan, Nanotet sphere.

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97. Rueckes, Thomas; Segal, Brent M., Nanotube films and articles.

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98. Rueckes, Thomas; Segal, Brent M., Nanotube films and articles.

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99. Rueckes, Thomas; Segal, Brent M., Nanotube films and articles.

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100. Cannon P. Jan, Nonpenta sphere.

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101. Dahl,Jeremy E.; Carlson,Robert M.; Liu,Shenggao, Nucleation of diamond films using higher diamondoids.

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102. Crowley,Robert Joseph, Optical antenna array for harmonic generation, mixing and signal amplification.

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103. Lipson, Matthew; Sochava, Sergei; Hesselink, Lambertus; Cumpston, Brian H.; MeLeod, Robert R.; Claude, Charles D., Optical storage media and method for optical data storage via local changes in reflectivity of a format grating.

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104. Yenilmez,Erhan; Dai,Hongjie, Patterned growth of single-walled carbon nanotubes from elevated wafer structures.

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105. Barbera-Guillem, Emillo; Nelson, M. Bud; Castro, Stephanie L., Polynucleotide strands operably linked to nanocrystals functionalized to be water soluble.

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106. Tour,James M.; Bahr,Jeffrey L.; Yang,Jiping, Process for attaching molecular wires and devices to carbon nanotubes and compositions thereof.

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107. Tour,James M.; Bahr,Jeffrey L.; Yang,Jiping, Process for derivatizing carbon nanotubes with diazonium species.

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108. Tour, James M.; Bahr, Jeffrey L.; Yang, Jiping, Process for derivatizing carbon nanotubes with diazonium species and compositions thereof.

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109. Tour,James M.; Dyke,Christopher A., Process for functionalizing carbon nanotubes under solvent-free conditions.

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110. Tour,James M.; Bahr,Jeffrey L.; Yang,Jiping, Process for making polymers comprising derivatized carbon nanotubes and compositions thereof.

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111. Yudasaka Masako,JPX ; Iijima Sumio,JPX, Process for producing single-wall carbon nanotubes uniform in diameter and laser ablation apparatus used therein.

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112. Luhrs, Claudia; Phillips, Jonathan; Richard, Monique N., Process to make core-shell structured nanoparticles.

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113. Kachoosangi, Roohollah, Sliding bearing.

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114. Li, Yuan-Yao; Chang, Tai-Hsun, Urchin-like copper oxide material manufacturing method.

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