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[资源] nature上的关于Carbon Nanotube的45篇牛文

附件中添加了endnote文件，希望对大家的科研有所帮助，另外相关的高手可以按图索骥，找到全文上传，以便大家进行交流

1. Hueso, L.E., et al., Transformation of spin information into large electrical signals using carbon nanotubes. Nature, 2007. 445(7126): p. 410-413.
2. Jie, X., et al., Ge/Si nanowire heterostructures as high-performance field-effect transistors. Nature, 2006. 441(7092): p. 489-493.
3. Jarillo-Herrero, P., J.A. van Dam, and L.P. Kouwenhoven, Quantum supercurrent transistors in carbon nanotubes. Nature, 2006. 439(7079): p. 953-956.
4. Teo, K.B.K., et al., Carbon nanotubes as cold cathodes. Nature, 2005. 437(7061): p. 968-968.
5. Majumder, M., et al., Enhanced flow in carbon nanotubes. Nature, 2005. 438(7064): p. 44-44.
6. Knisin-Elbaum, L., et al., Room-temperature ferromagnetic nanotubes controlled by electron or hole doping. Nature, 2004. 431(7009): p. 672-676.
7. Sazonova, V., et al., A tunable carbon nanotube electromechanical oscillator. Nature, 2004. 431(7006): p. 284-287.
8. Jarillo-Herrero, P., et al., Electron-hole symmetry in a semiconducting carbon nanotube quantum dot. Nature, 2004. 429(6990): p. 389-392.
9. Regan, B.C., et al., Carbon nanotubes as nanoscale mass conveyors. Nature, 2004. 428(6986): p. 924-927.
10. Minot, E.D., et al., Determination of electron orbital magnetic moments in carbon nanotubes. Nature, 2004. 428(6982): p. 536-539.
11. Javey, A., et al., Ballistic carbon nanotube field-effect transistors. Nature, 2003. 424(6949): p. 654-657.
12. Fennimore, A.M., et al., Rotational actuators based on carbon nanotubes. Nature, 2003. 424(6947): p. 408-410.
13. Modl, A., et al., Miniaturized gas ionization sensors using carbon nanotubes. Nature, 2003. 424(6945): p. 171-174.
14. Williams, K.A., et al., Carbon nanotubes with DNA recognition. Nature, 2002. 420(6917): p. 761-761.
15. de Jonge, N., et al., High brightness electron beam from a multi-walled carbon nanotube. Nature, 2002. 420(6914): p. 393-395.
16. Hummer, G., J.C. Rasalah, and J.P. Noworyta, Water conduction through the hydrophobic channel of a carbon nanotube. Nature, 2001. 414(6860): p. 188-190.
17. Jhinhwan, L., et al., Bandgap modulation of carbon nanotubes by encapsulated metallofullerenes. Nature, 2002. 415(6875): p. 1005-1008.
18. Yihua, G. and Y. Bando, Carbon nanothermometer containing gallium. Nature, 2002. 415(6872): p. 599-599.
19. Koga, K., et al., Formation of ordered ice nanotubes inside carbon nanotubes. Nature, 2001. 412(6849): p. 802-805.
20. Lemay, S.G., et al., Two-dimensional imaging of electronic wavefunctions in carbon nanotubes. Nature, 2001. 412(6847): p. 617-620.
21. Wenjie, L., et al., Fabry-Perot interference in a nanotube electron waveguide. Nature, 2001. 411(6838): p. 665-669.
22. Xiangfeng, D., et al., Indium phosphide nanowires as building blocks for nanoscale electronic and optoelectronic devices. Nature, 2001. 409(6816): p. 66-69.
23. Nygard, J., D.H. Cobden, and P.E. Lindelof, Kondo physics in carbon nanotubes. Nature, 2000. 408(6810): p. 342-346.
24. Wang, N., et al., Single-walled 4 A carbon nanotube arrays. Nature, 2000. 408(6808): p. 50-51.
25. Lu-Chang, Q., et al., The smallest carbon nanotube. Nature, 2000. 408(6808): p. 50-50.
26. Hongkun, P., et al., Nanomechanical oscillations in a single-C/sub 60/ transistor. Nature, 2000. 407(6800): p. 57-60.
27. Tombler, T.W., et al., Reversible electromechanical characteristics of carbon nanotubes under local-probe manipulation. Nature, 2000. 405(6788): p. 769-772.
28. Yao, Z., et al., Carbon nanotube intramolecular junctions. Nature, 1999. 402(6759): p. 273-276.
29. Tsukagoshi, K., B.W. Alphenaar, and H. Ago, Coherent transport of electron spin in a ferromagnetically contacted carbon nanotube. Nature, 1999. 401(6753): p. 572-574.
30. Jiangtao, H., et al., Controlled growth and electrical properties of heterojunctions of carbon nanotubes and silicon nanowires. Nature, 1999. 399(6731): p. 48-51.
31. Bachtold, A., et al., Aharonov-Bohm oscillations in carbon nanotubes. Nature, 1999. 397(6721): p. 673-675.
32. Falvo, M.R., et al., Nanometre-scale rolling and sliding of carbon nanotubes. Nature, 1999. 397(6716): p. 236-238.
33. Tans, S.J., et al., Electron-electron correlations in carbon nanotubes. Nature, 1998. 394(6695): p. 761-764.
34. Wong, S.S., et al., Covalently functionalized nanotubes as nanometre-sized probes in chemistry and biology. Nature, 1998. 394(6688): p. 52-55.
35. White, C.T. and T.N. Todorov, Carbon nanotubes as long ballistic conductors. Nature, 1998. 393(6682): p. 240-242.
36. Tans, S.J., R.M. Verschueren, and C. Dekker, Room temperature transistor based on a single carbon nanotube. Nature, 1998. 393(6680): p. 49-52.
37. Rao, A.M., et al., Evidence for charge transfer in doped carbon nanotube bundles from Raman scattering. Nature, 1997. 388(6639): p. 257-259.
38. Lee, R.S., et al., Conductivity enhancement in single-walled carbon nanotube bundles doped with K and Br. Nature, 1997. 388(6639): p. 255-257.
39. Terrones, M., et al., Controlled production of aligned-nanotube bundles. Nature, 1997. 388(6637): p. 52-55.
40. Ebbesen, T.W., et al., Electrical conductivity of individual carbon nanotubes. Nature, 1996. 382(6586): p. 54-56.
41. Chopra, N.G., et al., Fully collapsed carbon nanotubes. Nature, 1995. 377(6545): p. 135-138.
42. Ajayan, P.M., et al., Carbon nanotubes as removable templates for metal oxide nanocomposites and nanostructures. Nature, 1995. 375(6532): p. 564-567.
43. Guerret-Plecourt, C., et al., Relation between metal electronic structure and morphology of metal compounds inside carbon nanotubes. Nature, 1994. 372(6508): p. 761-765.
44. Tsang, S.C., P.J.F. Harris, and M.L.H. Green, Thinning and opening of carbon nanotubes by oxidation using carbon dioxide. Nature, 1993. 362(6420): p. 520-522.
45. Ebbesen, T.W. and P.M. Ajayan, Large-scale synthesis of carbon nanotubes. Nature, 1992. 358(6383): p. 220-222.

另外可见science上的相关专题的文献，见下面的帖子
http://muchong.com/bbs/viewthread.php?tid=584723&fpage=1

[ Last edited by gshsheng on 2009-6-20 at 13:19 ]

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