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Abstrakty
Application of Raman spectroscopy to analyse carbon nanotubes has been presented. Having a mixture of various carbon nanotube samples, one can easily distinguish, in a quick experiment, presence of singlewalled, doublewalled and multiwalled carbon nanotubes (SWCNT, DWCNT, MWCNT, respectively). The so-called G-line is a characteristic feature of the graphitic layers and corresponds to the tangential vibration of carbon atoms. Another characteristic mode is a typical sign of defective graphitic structures (D-line). A comparison of the intensity ratios of these two peaks gives a measure of the quality of the bulk samples. In addition, there is a third mode, named the radial breathing mode (RBM) which is very sensitive to the diameter of SWCNT and DWCNT. Additional option is application of Raman microscopy for mapping analysis and depth profiling to view the changes of intensity in various directions in the sample.
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Czasopismo
Rocznik
Tom
Strony
433--441
Opis fizyczny
Bibliogr. 19 poz.
Twórcy
autor
autor
autor
autor
autor
- Centre of Knowledge Based Nanomaterials and Technologies, Institute of Chemical and Environment Engineering, Szczecin University of Technology, ul. Pułaskiego 10, 70-310 Szczecin, Poland
Bibliografia
- [1] DRESSELHAUS M.S., DRESSELHAUS G., SAITO R., JORIO A., Phys. Rep., 409 (2005), 47.
- [2] JORIO A., PIMENTA M.A., FANTINI C., SOUZA M., SOUZA FILHO A.G., SAMSONIDZE GE.G., DRESSELHAUS G., DRESSELHAUS M.S., SAITO R., Carbon, 42 (2004), 1067.
- [3] KAVAN L., RAPTA P., DUNSCH L., BRONIKOWSKI M.J., WILLIS P., SMALLEY R.E., J. Phys. Chem. B, 105 (2001), 10764.
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- [5] ASTAKHOVA T.YU., VINOGRADOV G.A., MENON M., Russian Chem. Bull., Int. Ed., 52 (2003), 823.
- [6] DRESSELHAUS M.S., DRESSELHAUS G., JORIO A., SOUZA FILHO A.G., PIMENTA M.A., SAITO D.R., Acc. Chem. Res., 35 (2002), 1070.
- [7] QIAN W., LIU T., WEI F., YUAN H., Carbon, 41 (2003), 1851.
- [8] TAKEDA N., MURAKOSHI K., Anal Bioanal Chem., 388 (2007), 103.
- [9] DOORN S.K., HELLER D.A., BARONE P.W., USREY M.L., STRANO M.S., Appl. Phys. A, 78 (2004), 1147.
- [10] DRESSELHAUS M.S., DRESSELHAUS G., JORIO A., SOUZA FILHO A.G., SAITO R., Carbon, 40 (2002), 2043.
- [11] DRESSELHAUS M.S., JORIO A., SOUZA FILHO A.G., DRESSELHAUS G., SAITO R., Physica B, 323 (2002), 15.
- [12] ZHANG H.B., LIN G.D., ZHOU Z.H., DONG X., CHEN T., Carbon, 40 (2002), 2429.
- [13] ANTUNES E.F., LOBO A.O., CORAT E.J., TRAVA-AIROLDI V.J., MARTIN A.A., VERISSIMO C., Carbon, 44 (2006), 2202.
- [14] RITTER U., SCHARFF P., SIEGMUND C., DMYTRENKO O.P., KULISH N.P., PRYLUTSKYY YU.I., BELYI N.M., GUBANOV V.A., KOMAROVA L.I., LIZUNOVA S.V., POROSHIN V.G., SHLAPATSKAYA V.V., BERNAS H., Carbon, 44 (2006), 2694.
- [15] GRIMM D., GRÜNEIS A., KRAMBERGER C., RÜMMELI M., GEMMING T., BÜCHNER B., BARREIRO A., KUZMANY H., PFEIFFER R., PICHLER T., Chem. Phys. Lett., 428 (2006), 416.
- [16] DOORN S.K., O’CONNELL M.J., ZHENG L., ZHU Y.T., HUANG S., LIU J., Phys. Rev. Lett., 16802 (2005), 1.
- [17] KUZMANY H., BURGER B., THESS A., SMALLEY R.E., Carbon, 36 (1998), 709.
- [18] KÜRTI J., KUZMANY H., BURGER B., HULMAN M., WINTER J., KRESSE G., Synth. Metals, 103 (1999), 2508.
- [19] KUZMANY H., PLANK W., HULMAN M., KRAMBERGER C., GRÜNEIS A., PICHLER T., PETERLIK H., KATAURA H., ACHIBA Y., Eur. Phys. J. B, 22 (2001), 307.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW7-0007-0213