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【2007年最佳专题贴】Science上关于碳纳米管的61篇经典论文!!!
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由于是新手,上次发表的帖子的链接不能直接下载,请各位虫子们见谅。这次我反复尝试了链接,应该没问题了。非常感谢斑竹提出的宝贵意见,以下是61篇Science论文的题目。 1. Carbon Nanotubes—the Route Toward Applications 2. Single-Electron Transport in Ropes of Carbon Nanotubes 3. Synthesis of Gallium Nitride Nanorods Through a Carbon Nanotube–Confined Reaction 4. Nanobeam Mechanics: Elasticity, Strength, and Toughness of Nanorods and Nanotubes 5. Nanotube Nanodevice 6. Synthesis of Nanoparticles and Nanotubes with Well-Separated Layers of Boron Nitride and Carbon 7. Fullerene Pipes 8. Carbon Nanotube Quantum Resistors 9. Coaxial Nanocable: Silicon Carbide and Silicon Oxide Sheathed with Boron Nitride and Carbon 10. Solution Properties of Single-Walled Carbon Nanotubes 11. Synthesis of Large Arrays of Well-Aligned Carbon Nanotubes on Glass 12. Imaging Electron Wave Functions of Quantized Energy Levels in Carbon Nanotubes 13. Self-Oriented Regular Arrays of Carbon Nanotubes and Their Field Emission Properties 14. Electrostatic Deßections and Electromechanical Resonances of Carbon Nanotubes 15. Carbon Nanotube Actuators 16. Supercurrents Through Single-Walled Carbon Nanotubes 17. High H2 Uptake by Alkali-Doped Carbon Nanotubes Under Ambient Pressure and Moderate Temperatures 18. Heterostructures of Single-Walled Carbon Nanotubes and Carbide Nanorods 19. Gate-Controlled Superconducting Proximity Effect in Carbon Nanotubes 20. Hydrogen Storage in Single-Walled Carbon Nanotubes at Room Temperature 21. Nanotube Nanotweezers 22. Nanotube Molecular Wires as Chemical Sensors 23. Strength and Breaking Mechanism of Multiwalled Carbon Nanotubes Under Tensile Load 24. Extreme Oxygen Sensitivity of Electronic Properties of Carbon Nanotubes 25. Electronic Structures of Single-Walled Carbon Nanotubes Determined by NMR 26. Coalescence of Single-Walled Carbon Nanotubes 27. Carbon NanotubeÐBased Nonvolatile Random Access Memory for Molecular Computing 28. Low-Friction Nanoscale Linear Bearing Realized from Multiwall Carbon Nanotubes 29. Discrete Atom Imaging of One-Dimensional Crystals Formed Within Single-Walled Carbon Nanotubes 30. Quantized Phonon Spectrum of Single-Wall Carbon Nanotubes 31. Graphite Polyhedral Crystals 32. Macroscopic Fibers and Ribbons of Oriented Carbon Nanotubes 33. Magnetic Clusters on Single-Walled Carbon Nanotubes: The Kondo Effect in a One- imensional Host 34. Modulated Chemical Doping of Individual Carbon Nanotubes 35. Tunable Resistance of a Carbon NanotubeÐGraphite Interface 36. Element-Selective Single Atom Imaging 37. Atomically Resolved Single-Walled Carbon Nanotube Intramolecular Junctions 38. Resonant Electron Scattering by Defects in Single-Walled Carbon Nanotubes 39. Directed Assembly of One-Dimensional Nanostructures into Functional Networks 40. Self-Assembly of Subnanometer-Diameter Single-Wall MoS2 Nanotubes 41. Energy Gaps in Metallic Single-Walled Carbon Nanotubes 42. Engineering Carbon Nanotubes and Nanotube Circuits Using Electrical Breakdown 43. Single Crystals of Single-Walled Carbon Nanotubes Formed by Self-Assembly 44. Superconductivity in 4 Angstrom Single-Walled Carbon Nanotubes 45. Carbon Nanotube Single-Electron Transistors at Room Temperature 46. Carbon Nanotubes Close the Loop 47. Ring Closure of Carbon Nanotubes 48. Ultrathin Single-Crystalline Silver Nanowire Arrays Formed in an Ambient Solution Phase 49. Nanowire and Nanotube Circuitry 50. Logic Circuits with Carbon Nanotube Transistors 51. Mapping the One-Dimensional Electronic States of Nanotube Peapod Structures 52. Nanotubes in a Flash-Ignition and Reconstruction 53. Centimeter Nanotubes 54. Direct Synthesis of Long Single-Walled Carbon Nanotube Strands 55. Scanned Probe Imaging of Single-Electron Charge States in Nanotube Quantum Dots 56. Polymer Nanotubes by Wetting of Ordered Porous Templates 57. Antibody-Based Bio-Nanotube Membranes for Enantiomeric Drug Separations 58. Band Gap Fluorescence from Individual Single-Walled Carbon Nanotubes 59. Nanotubes in the Groove 60. Making Membranes of Nanotubes 61. Diameter-Selective Raman Scattering from Vibrational Modes in Carbon Nanotubes http://www.box.net/shared/8o5odqd3b1 或者到这里下载 1-science about carbon nanotube.rar http://www.zshare.net/download/3873380257e6c7/ http://www.91files.com/?Q3QI7U7W4OW7NONEUWYJ 2-science about carbon nanotube.rar http://www.zshare.net/download/38735857757d89/ http://www.91files.com/?UWQS08JEXZ9MN08Y6MYS [ Last edited by gshsheng on 2009-6-20 at 13:04 ] |
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★★★ 三星级,支持鼓励
其实关于纳米管检索的科学期刊文章有81篇的,楼主有检索不全阿 但是还是要鼓励鼓励 如下:(另外还添加了endnote文件见附件) 1. Ajayan, P.M., et al., Aligned carbon nanotube arrays formed by cutting a polymer resin-nanotube composite. Science, 1994. 265(5176): p. 1212-1214. 2. de Heer, W.A., et al., Aligned carbon nanotube films: production and optical and electronic properties. Science, 1995. 268(5212): p. 845-847. 3. Hinds, B.J., et al., Aligned multiwalled carbon nanotube membranes. Science, 2004. 303(5654): p. 62-65. 4. Romero, H.E., et al., Atom collision-induced resistivity of carbon nanotubes. Science, 2005. 307(5706): p. 89-93. 5. Zuo, J.M., et al., Atomic resolution imaging of a carbon nanotube from diffraction intensities. Science, 2003. 300(5624): p. 1419-1421. 6. Min, O., et al., Atomically resolved single-walled carbon nanotube intramolecular junctions. Science, 2001. 291(5501): p. 97-100. 7. Itkis, M.E., et al., Bolometric infrared photoresponse of suspended single-walled carbon nanotube films. Science, 2006. 312(5772): p. 413-416. 8. Chen, J., et al., Bright infrared emission from electrically induced excitons in carbon nanotubes. Science, 2005. 310(5751): p. 1171-1174. 9. Baughman, R.H., et al., Carbon nanotube actuators. Science, 1999. 284(5418): p. 1340-1344. 10. de Heer, W.A., A. Chatelain, and D. Ugarte, A carbon nanotube field-emission electron source. Science, 1995. 270(5239): p. 1179-1180. 11. Ghosh, S., A.K. Sood, and N. Kumar, Carbon nanotube flow sensors. Science, 2003. 299(5609): p. 1042-1044. 12. Frank, S., et al., Carbon nanotube quantum resistors. Science, 1998. 280(5370): p. 1744-1746. 13. Postma, H.W.C., et al., Carbon nanotube single-electron transistors at room temperature. Science, 2001. 293(5527): p. 76-79. 14. Rueckes, T., et al., Carbon nanotube-based nonvolatile random access memory for molecular computing. Science, 2000. 289(5476): p. 94-97. 15. Sun, L., et al., Carbon nanotubes as high-pressure cylinders and nanoextruders. Science, 2006. 312(5777): p. 1199-1202. 16. Snow, E.S., et al., Chemical detection with a single-walled carbon nanotube capacitor. Science, 2005. 307(5717): p. 1942-1945. 17. Zhang, Y., K. Suenaga, and S. Iijima, Coaxial nanocable: silicon carbide and silicon oxide sheathed with boron nitride and carbon. Science, 1998. 281(5379): p. 973-975. 18. Goldsmith, B.R., et al., Conductance-controlled point functionalization of single-walled carbon nanotubes. Science, 2007. 315(5808): p. 77-81. 19. Fuhrer, M.S., et al., Crossed nanotube junctions. Science, 2000. 288(5465): p. 494-497. 20. Rao, A.M., et al., Diameter-selective Raman scattering from vibrational modes in carbon nanotubes. Science, 1997. 275(5297): p. 187-191. 21. Ya-Li, L., I.A. Kinloch, and A.H. Windle, Direct spinning of carbon nanotube fibers from chemical vapor deposition synthesis. Science, 2004. 304(5668): p. 276-278. 22. Zhu, H.W., et al., Direct synthesis of long single-walled carbon nanotube strands. Science, 2002. 296(5569): p. 884-886. 23. Meyer, R.R., et al., Discrete atom imaging of one-dimensional crystals formed within single-walled carbon nanotubes. Science, 2000. 289(5483): p. 1324-1326. 24. Keren, K., et al., DNA-templated carbon nanotube field-effect transistor. Science, 2003. 302(5649): p. 1380-1382. 25. Stephan, O., et al., Doping graphitic and carbon nanotube structures with boron and nitrogen. Science, 1994. 266(5191): p. 1683-1685. 26. Misewich, J.A., et al., Electrically induced optical emission from a carbon nanotube FET. Science, 2003. 300(5620): p. 783-786. 27. Poncharal, P., et al., Electrostatic deflections and electromechanical resonances of carbon nanotubes. Science, 1999. 283(5407): p. 1513-1516. 28. Chen, J.Y., et al., Electrowetting in carbon nanotubes. Science, 2005. 310(5753): p. 1480-1483. 29. Suenaga, K., et al., Element-selective single atom imaging. Science, 2000. 290(5500): p. 2280-2282. 30. Collins, P.G., M.S. Arnold, and P. Avouris, Engineering carbon nanotubes and nanotube circuits using electrical breakdown. Science, 2001. 292(5517): p. 706-713. 31. Collins, P.G., et al., Extreme oxygen sensitivity of electronic properties of carbon nanotubes. Science, 2000. 287(5459): p. 1801-1804. 32. Holt, J.K., et al., Fast mass transport through sub-2-nanometer carbon nanotubes. Science, 2006. 312(5776): p. 1034-1037. 33. Morpurgo, A.F., et al., Gate-controlled superconducting proximity effect in carbon nanotubes. Science, 1999. 286(5438): p. 263-265. 34. Gogotsi, Y., et al., Graphite polyhedral crystals. Science, 2000. 290(5490): p. 317-320. 35. Colbert, D.T., et al., Growth and sintering of fullerene nanotubes. Science, 1994. 266(5188): p. 1218-1222. 36. Coskun, U.C., et al., h/e magnetic flux modulation of the energy gap in nanotube quantum dots. Science, 2004. 304(5674): p. 1132-1134. 37. Koshino, M., et al., Imaging of single organic molecules in motion. Science, 2007. 316(5826): p. 853-853. 38. Chen, Z., et al., An integrated logic circuit assembled on a single carbon nanotube. Science, 2006. 311(5768): p. 1735-1735. 39. Liquid carbon, carbon-glass beads, and the crystallization of carbon nanotubes. Science, 2005. 307(5711): p. 907-910. 40. Mason, N., M.J. Biercuk, and C.M. Marcus, Local gate control of a carbon nanotube double quantum dot. Science, 2004. 303(5658): p. 655-658. 41. Bachtold, A., et al., Logic circuits with carbon nanotube transistors. Science, 2001. 294(5545): p. 1317-1320. 42. Cumings, J. and A. Zettl, Low-friction nanoscale linear bearing realized from multiwall carbon nanotubes. Science, 2000. 289(5479): p. 602-604. 43. Vigolo, B., et al., Macroscopic fibers and ribbons of oriented carbon nanotubes. Science, 2000. 290(5495): p. 1331-1334. 44. Ericson, L.M., et al., Macroscopic, neat, single-walled carbon nanotube fibers. Science, 2004. 305(5689): p. 1447-1450. 45. Odom, T.W., et al., Magnetic clusters on single-walled carbon nanotubes: the Kondo effect in a one-dimensional host. Science, 2000. 290(5496): p. 1549-1552. 46. Hornbaker, D.J., et al., Mapping the one-dimensional electronic states of nanotube peapod structures. Science, 2002. 295(5556): p. 828-831. 47. Charlier, J.C., et al., Microscopic growth mechanisms for carbon nanotubes. Science, 1997. 275(5300): p. 646-649. 48. Chongwu, Z., et al., Modulated chemical doping of individual carbon nanotubes. Science, 2000. 290(5496): p. 1552-1555. 49. Fukushima, T., et al., Molecular ordering of organic molten salts triggered by single-walled carbon nanotubes. Science, 2003. 300(5628): p. 2072-2074. 50. Mei, Z., K.R. Atkinson, and R.H. Baughman, Multifunctional carbon nanotube yarns by downsizing an ancient technology. Science, 2004. 306(5700): p. 1358-1361. 51. Jing, K., et al., Nanotube molecular wires as chemical sensors. Science, 2000. 287(5453): p. 622-625. 52. Collins, P.G., et al., Nanotube nanodevice. Science, 1997. 278(5335): p. 100-103. 53. Kim, P. and C.M. Lieber, Nanotube nanotweezers. Science, 1999. 286(5447): p. 2148-2150. 54. Heller, D.A., et al., Optical detection of DNA conformational polymorphism on single-walled carbon nanotubes. Science, 2006. 311(5760): p. 508-511. 55. Feng, W., et al., The optical resonances in carbon nanotubes arise from excitons. Science, 2005. 308(5723): p. 838-841. 56. Zaric, S., et al., Optical signatures of the Aharonov-Bohm phase in single-walled carbon nanotubes. Science, 2004. 304(5674): p. 1129-1131. 57. Mickelson, W., et al., Packing C/sub 60/ in boron nitride nanotubes. Science, 2003. 300(5618): p. 467-469. 58. Hongjie, D., E.W. Wong, and C.M. Lieber, Probing electrical transport in nanomaterials: conductivity of individual carbon nanotubes. Science, 1996. 272(5261): p. 523-526. 59. Bockrath, M., et al., Resonant electron scattering by defects in single-walled carbon nanotubes. Science, 2001. 291(5502): p. 283-285. 60. Sano, M., et al., Ring closure of carbon nanotubes. Science, 2001. 293(5533): p. 1299-1301. 61. Hill, J.P., et al., Self-assembled hexa-peri-hexabenzoicoronene graphitic nanotube. Science, 2004. 304(5676): p. 1481-1483. 62. Shoushan, F., et al., Self-oriented regular arrays of carbon nanotubes and their field emission properties. Science, 1999. 283(5401): p. 512-514. 63. Hartschuh, A., et al., Simultaneous fluorescence and Raman scattering from single carbon nanotubes. Science, 2003. 301(5638): p. 1354-1356. 64. Bockrath, M., et al., Single-electron transport in ropes of carbon nanotubes. Science, 1997. 275(5308): p. 1922-1925. 65. Meyer, J.C., M. Paillet, and S. Roth, Single-molecule torsional pendulum. Science, 2005. 309(5740): p. 1539-1541. 66. Chang, C.W., et al., Solid-state thermal rectifier. Science, 2006. 314(5802): p. 1121-1124. 67. Jian, C., et al., Solution properties of single-walled carbon nanotubes. Science, 1998. 282(5386): p. 95-98. 68. Min-Feng, Y., et al., Strength and breaking mechanism of multiwalled carbon nanotubes under tensile load. Science, 2000. 287(5453): p. 637-640. 69. Mei, Z., et al., Strong, transparent, multifunctional, carbon nanotube sheets. Science, 2005. 309(5738): p. 1215-1219. 70. Bachilo, S.M., et al., Structure-assigned optical spectra of single-walled carbon nanotubes. Science, 2002. 298(5602): p. 2361-2366. 71. Ming, Z., et al., Structure-based carbon nanotube sorting by sequence-dependent DNA assembly. Science, 2003. 302(5650): p. 1545-1548. 72. Cao, A., et al., Super-compressible foamlike carbon nanotube films. Science, 2005. 310(5752): p. 1307-1313. 73. Kasumov, A.Y., et al., Supercurrents through single-walled carbon nanotubes. Science, 1999. 284(5419): p. 1508-1511. 74. Richard, C., et al., Supramolecular self-assembly of lipid derivatives on carbon nanotubes. Science, 2003. 300(5620): p. 775-778. 75. Weiqiang, H., et al., Synthesis of gallium nitride nanorods through a carbon nanotube-confined reaction. Science, 1997. 277(5330): p. 1287-1289. 76. Ren, Z.F., et al., Synthesis of large arrays of well-aligned carbon nanotubes on glass. Science, 1998. 282(5391): p. 1105-1107. 77. Suenaga, K., et al., Synthesis of nanoparticles and nanotubes with well-separated layers of boron nitride and carbon. Science, 1997. 278(5338): p. 653-655. 78. Zhuangchun, W., et al., Transparent, conductive carbon nanotube films. Science, 2004. 305(5688): p. 1273-1276. 79. Paulson, S., et al., Tunable resistance of a carbon nanotube-graphite interface. Science, 2000. 290(5497): p. 1742-1744. 80. Rinzler, A.G., et al., Unraveling nanotubes: field emission from an atomic wire. Science, 1995. 269(5230): p. 1550-1553. 81. Hata, K., et al., Water-assisted highly efficient synthesis of impurity-free single-waited carbon nanotubes. Science, 2004. 306(5700): p. 1362-1364. [ Last edited by yqwei2008 on 2007-9-28 at 21:16 ] |
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简单回复
2007-09-27 16:41
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cranelau204921楼
2007-09-28 21:18
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谢谢分享。
zhuzz0523楼
2007-11-06 00:46
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顶 !!!!!!
2007-11-06 09:04
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