参考文献/References:
[ 1] Jou rnet C, M aserW K, Bern ier P, et a.l La rge-sca le production of sing le-wa lled ca rbon nano tubes by the e lectric-arctechnique[ J]. N ature, 1997, 388: 756-758.
[ 2] Thess A, Lee R, N iko laev P, et a.l C rysta lline ropes o fm eta llic carbon nanotubes[ J]. Sc ience, 1996, 273( 5274): 483-487.
[ 3] Tans S J, DevoretM H, DaiH J, et a .l Ind iv idua l single-w all carbon nanotubes as quantum w ires: quantum conduc tance o f carbon nanotubes[ J]. Nature, 1997, 386: 474-477.
[ 4] M a itiA, Brabec C J, Bernho lc J. K ine tics of m eta l- ca talyzed grow th o f sing le-w a lled ca rbon nanotubes[ J]. Phys Rev B,1997, 55( 10): R6097-R6100.
[ 5] Zhou D, Seraph in S, W ang S. S ing le-w a lled carbon nanotubes grow ing rad ially from YC2 particles[ J]. App l Phy s Lett,1994, 65: 1 593-1 596.
[ 6] Sa itoY, Okuda M, Fu jim oto N, etal. Single-wa ll carbon nano tubes g row ing rad ia lly from N i fine particles formed by arc evapo ra tion[ J] . Jpn J App l Phy s, 1994, 33: L526-L529.
[ 7] G av illet J, Lo iseau A, Journet C, e t a.l Root-grow th m echanism for sing le-wa ll carbon nanotubes[ J]. Phys Rev Lett, 2001,87( 27) : 2755041-275504-4.
[ 8] W agne rR S, E llisW C. V apor-liquid-solid mechan ism of sing le crystal grow th[ J]. Appl Phys Lett, 1964, 4: 89-90.
[ 9] H ornyak G L, Gr igor ian L, D illon A C, et a.l A tem pe ra turew indow for chem ica l vapor decom position grow th of s ing le-wall carbon nanotubes[ J]. J Phys Chem B, 2002, 106: 2 821-2 825.
[ 10] M aruyam a S, Ko jim a R, M iyauchi Y, e t a.l Low-tem perature synthesis o f high-purity sing le-w a lled carbon nano tubes from a lcoho l[ J]. Chem Phys Le tt, 2002, 360: 229-234.
[ 11] N iko laev P, B ron ikow skiM J, Brad ley R K, et a.l Gas-phase ca talytic grow th of sing le-wa lled ca rbon nano tubes from carbon m onox ide[ J]. Chem Phys Le tt, 1999, 313: 91-97.
[ 12] Sm alley R E. From dopyba lls to nanow ires[ J]. M a ter Sc i Eng B, 1993, 19: 1-7.
[ 13] M a iti A, Ro land CM, Bernho lc J. Grow th energ etics o f ca rbon nanotubes[ J]. Phys Rev Le tt, 1994, 73( 18): 2 468-2 471.
[ 14] B rabec C J, M a itiA, Ro land CM, et a .l Grow th of ca rbon nano tubes: a mo lecu lar dynam ics study [ J] . Chem Phys Lett,
1995, 236: 150-155.
[ 15] N iko laev P, Thess A, Rinzler A G, et a.l D iame ter doub ling o f single-wa ll nanotubes[ J]. Chem Phys Lett, 1997, 266:422-426.
[ 16] Te rrones M, Terrones H, B anhart F, e t a.l Co alescence of single-w a lled carbon nano tubes[ J]. Science, 2000, 288( 5469): 1 226-1 229.
[ 17] Kaw a iT, M iyamo toY, Sug inoO, et a .l Gene ra l sum ru le for ch ira l index of coa lescing ultra th in nano tubes[ J]. Phys Rev Lett, 2002, 89( 8) : 085901-1-085901-4
相似文献/References:
[1]韩典荣,程承平,王 璐,等.石墨带在碳纳米管内嵌入行为的研究[J].南京师大学报(自然科学版),2013,36(04):58.
Han Dianrong,Cheng Chengping,Wang Lu,et al.Research on Encapsulation of Graphene Nanoribbon into Carbon Nanotube[J].Journal of Nanjing Normal University(Natural Science Edition),2013,36(01):58.