Carbon nanotubes with graphitic wings. Trasobares, S, Ewels, C P, Birrell, J, Stephan, O, Wei, B Q, Carlisle, J A, Miller, D, Keblinski, P, & Ajayan, P M Advanced Materials, 16(7):610––613+575, Dept. of Mat. Sci. and Engineering, Rensselaer Polytechnic Institute, Troy, NY 12180, United States, 2004. Paper abstract bibtex Graphitic platelets (wings) on carbon nanotubes are produced using a new two-step chemical vapor deposition method (see Figure and inside cover). Chemical attack during the process, aided by curvature-induced strain, rips open the outer nanotube walls and produces an irregular and corrugated surface. The new morphology, which presents a highly modulated and active nanotube surface, could facilitate posterior functionalization or direct composite fabrication.
@article{Trasobares2004,
abstract = {Graphitic platelets (wings) on carbon nanotubes are produced using a new two-step chemical vapor deposition method (see Figure and inside cover). Chemical attack during the process, aided by curvature-induced strain, rips open the outer nanotube walls and produces an irregular and corrugated surface. The new morphology, which presents a highly modulated and active nanotube surface, could facilitate posterior functionalization or direct composite fabrication.},
address = {Dept. of Mat. Sci. and Engineering, Rensselaer Polytechnic Institute, Troy, NY 12180, United States},
annote = {Cited By (since 1996): 22
Export Date: 15 January 2013
Source: Scopus
CODEN: ADVME
Language of Original Document: English
Correspondence Address: Trasobares, S.; Material Science Division, Center for Nanoscale Materials, Argonne National Laboratory, 9700 S Cass Av, Argone, IL 60439, United States; email: strasobares@anl.gov
References: Baughman, R.H., Zakhidov, A.A., De Heer, W.A., (2002) Science, 297, p. 787;
Kang, Y., Taton, A., (2003) J. Am. Chem. Soc., 125, p. 5650;
Mamedov, A., Kotov, N.A., Prato, M., Guldi, D.M., Wicksted, J.P., Hirsch, A., (2002) Nat. Mater., 1, p. 190;
Chen, Q., Dai, L., Gao, M., Huang, S., Mau, A., (2001) J. Phys. Chem. B, 105, p. 618;
Sun, Y.-P., Fu, K., Lin, Y., Huang, W., (2002) Acc. Chem. Res., 35, p. 1096;
Wei, B.Q., Vajtai, R., Jung, Y., Ward, J., Zhang, R., Ramanath, O., Ajayan, P.M., (2002) Nature, 416, p. 495;
Gruen, D.M., (1999) Annu. Rev. Mater. Sci., 29, p. 211;
Zhu, W., Inspektor, A., Badzian, A.R., McKenna, T., Messier, R., (1990) J. Appl. Phys., 68, p. 1489;
Goyette, A.N., Lawler, J.E., Anderson, L.W., Gruen, D.M., McCauley, T.G., Zhou, D., Krauss, A.R., (1998) J. Phys. D, 31, p. 1975;
Tsai, S.H., Chao, C.W., Lee, C.L., Shih, H.C., (1999) Appl. Phys. Lett., 74, p. 3462;
Zhi, C.Y., Bai, X.D., Wang, E.G., (2002) Appl. Phys. Lett., 81, p. 1690;
Stephan, O., Ajayan, P.M., Colliex, C., Cyrotlackmann, F., Sandre, E., (1996) Phys. Rev. B, 53, p. 13824;
Heggie, M.I., Latham, C.D., Jones, R., Briddon, P.R., (1995) 187th Meeting of the Electrochemical Society, , Reno, NV May;
Matsui, Y., Yabe, H., Hirose, Y., (1993) Diamond Relat. Mater., 2, p. 7;
Rappe, A.K., Casewit, C.J., Colwell, K.S., Goddard, W.A., Skiff, W.M., (1992) J. Am. Chem. Soc., 114, p. 10024;
G\"{u}lseren, O., Yildirim, T., Ciraci, S., (2002) Phys. Rev. B, 65, p. 153405;
Nigoyi, S., Hamon, M.A., Hu, H., Zhao, B., Bhowmik, P., Sen, R., Itkis, M.E., Haddon, R.C., (2002) Acc. Chem. Res., 35, p. 1105;
Arellano, J.S., Molina, L.M., Rubio, A., Lopez, M.J., Alonso, J.A., (2002) J. Chem. Phys., 117, p. 2281;
Gulseren, O., Yildirim, T., Ciraci, S., (2001) Phys. Rev. Lett., 86-87, p. 116802;
Brown, C.M., Yildirim, T., Neumann, D.A., Heben, M.J., Gennett, T., Dillon, A.C., Alleman, J.L., Fischer, J.E., (2000) Chem. Phys. Lett., 329, p. 311;
Nikolaev, P., Thess, A., Rinzler, A.G., Colbert, D.T., Smalley, R.E., (1997) Chem. Phys. Lett., 266, p. 422},
author = {Trasobares, S and Ewels, C P and Birrell, J and Stephan, O and Wei, B Q and Carlisle, J A and Miller, D and Keblinski, P and Ajayan, P M},
issn = {09359648 (ISSN)},
journal = {Advanced Materials},
keywords = {Carbon nanotubes,Chemical reactions,Diamond films,Direct composite fabrication,Graphite Wings,Graphite fibers,Mechanical interlocking,Morphology,Nanotube side walls,Nucleation,Plasma enhanced chemical vapor deposition,Transmission electron microscopy},
number = {7},
pages = {610----613+575},
title = {{Carbon nanotubes with graphitic wings}},
url = {https://www.scopus.com/inward/record.url?eid=2-s2.0-2442530885&partnerID=40&md5=97f5d669d567cd52b4e594ab1bc9a269},
volume = {16},
year = {2004}
}
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B, 105, p. 618; Sun, Y.-P., Fu, K., Lin, Y., Huang, W., (2002) Acc. Chem. Res., 35, p. 1096; Wei, B.Q., Vajtai, R., Jung, Y., Ward, J., Zhang, R., Ramanath, O., Ajayan, P.M., (2002) Nature, 416, p. 495; Gruen, D.M., (1999) Annu. Rev. Mater. Sci., 29, p. 211; Zhu, W., Inspektor, A., Badzian, A.R., McKenna, T., Messier, R., (1990) J. Appl. Phys., 68, p. 1489; Goyette, A.N., Lawler, J.E., Anderson, L.W., Gruen, D.M., McCauley, T.G., Zhou, D., Krauss, A.R., (1998) J. Phys. D, 31, p. 1975; Tsai, S.H., Chao, C.W., Lee, C.L., Shih, H.C., (1999) Appl. Phys. Lett., 74, p. 3462; Zhi, C.Y., Bai, X.D., Wang, E.G., (2002) Appl. Phys. Lett., 81, p. 1690; Stephan, O., Ajayan, P.M., Colliex, C., Cyrotlackmann, F., Sandre, E., (1996) Phys. Rev. B, 53, p. 13824; Heggie, M.I., Latham, C.D., Jones, R., Briddon, P.R., (1995) 187th Meeting of the Electrochemical Society, , Reno, NV May; Matsui, Y., Yabe, H., Hirose, Y., (1993) Diamond Relat. 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Chemical attack during the process, aided by curvature-induced strain, rips open the outer nanotube walls and produces an irregular and corrugated surface. The new morphology, which presents a highly modulated and active nanotube surface, could facilitate posterior functionalization or direct composite fabrication.},\naddress = {Dept. of Mat. Sci. and Engineering, Rensselaer Polytechnic Institute, Troy, NY 12180, United States},\nannote = {Cited By (since 1996): 22\n\n \nExport Date: 15 January 2013\n\n \nSource: Scopus\n\n \nCODEN: ADVME\n\n \nLanguage of Original Document: English\n\n \nCorrespondence Address: Trasobares, S.; Material Science Division, Center for Nanoscale Materials, Argonne National Laboratory, 9700 S Cass Av, Argone, IL 60439, United States; email: strasobares@anl.gov\n\n \nReferences: Baughman, R.H., Zakhidov, A.A., De Heer, W.A., (2002) Science, 297, p. 787; \nKang, Y., Taton, A., (2003) J. Am. Chem. Soc., 125, p. 5650; \nMamedov, A., Kotov, N.A., Prato, M., Guldi, D.M., Wicksted, J.P., Hirsch, A., (2002) Nat. Mater., 1, p. 190; \nChen, Q., Dai, L., Gao, M., Huang, S., Mau, A., (2001) J. Phys. Chem. B, 105, p. 618; \nSun, Y.-P., Fu, K., Lin, Y., Huang, W., (2002) Acc. Chem. Res., 35, p. 1096; \nWei, B.Q., Vajtai, R., Jung, Y., Ward, J., Zhang, R., Ramanath, O., Ajayan, P.M., (2002) Nature, 416, p. 495; \nGruen, D.M., (1999) Annu. Rev. Mater. Sci., 29, p. 211; \nZhu, W., Inspektor, A., Badzian, A.R., McKenna, T., Messier, R., (1990) J. Appl. Phys., 68, p. 1489; \nGoyette, A.N., Lawler, J.E., Anderson, L.W., Gruen, D.M., McCauley, T.G., Zhou, D., Krauss, A.R., (1998) J. Phys. D, 31, p. 1975; \nTsai, S.H., Chao, C.W., Lee, C.L., Shih, H.C., (1999) Appl. Phys. Lett., 74, p. 3462; \nZhi, C.Y., Bai, X.D., Wang, E.G., (2002) Appl. Phys. Lett., 81, p. 1690; \nStephan, O., Ajayan, P.M., Colliex, C., Cyrotlackmann, F., Sandre, E., (1996) Phys. Rev. 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