Using the Lennard–Jones potential, continuum modeling of the van der Waals potential energy and interaction force distributions are investigated for the eccentric and concentric single-walled carbon nanocones inside the single-walled carbon nanotubes. Furthermore, a new semi-analytical solution is presented to evaluate the van der Waals interaction of the nanocone located on the axis of the nanotube. Eccentric and concentric configurations of these nanostructures are also investigated to obtain the preferred position of the nanocone inside the nanotubes. Finally, the optimum radius of a carbon nanotube for which the preferred location of carbon nanocones is along the tube axis is found.
References
1.
Iijima
, S.
, 1991, “Helical Microtubules of Graphitic Carbon
,” Nature
, 354
, pp. 56
–58
.2.
Kroto
, H. W.
, Heath
, J. R.
, O’Brien
, S. C.
, Curl
, R. F.
, and Smalley
, R. E.
, 1985, “C60: Buckminsterfullerene
,” Nature
, 318
, pp. 162
–163
.3.
Kong
, X. Y.
, Ding
, Y.
, Yang
, R.
, and Wang
, Z. L.
, 2004, “Single-Crystal Nanorings Formed by Epitaxial Self-Coiling of Polar-Nanobelts
,” Science
, 303
, pp. 1348
–1351
.4.
Iijima
, S.
, Brabec
, C.
, Maiti
, A.
, and Bernholc
, J.
, 1996, “Structural Flexibility of Carbon Nanotubes
,” J. Chem. Phys.
, 104
, pp. 2089
–2092
.5.
Yakobson
, B. I.
, Campbell
, M. P.
, Brabec
, C. J.
, and Bernholc
, J.
, 1997, “High Strain Rate Fracture and C-Chain Unraveling in Carbon Nanotubes
,” Comput. Mater. Sci.
, 8
, pp. 341
–348
.6.
Hernandez
, E.
, Goze
, C.
, Bernier
, P.
, and Rubio
, A.
, 1998, “Elastic Properties of C and BxCyNz Composite Nanotubes
,” Phys. Rev. Lett.
, 80
, pp. 4502
–4505
.7.
Sanchez-Portal
, D.
, Artacho
, E.
, Soler
, J. M.
, Rubio
, A.
, and Ordejon
, P.
, “Ab Initio Structural, Elastic, and Vibrational Properties of Carbon Nanotubes
,” Phys. Rev. B
, 59
, pp. 12678
–12688
.8.
Qian
, D.
, Wagner
, J. G.
, Liu
, W. K.
, Yu
, M. F.
, and Ruoff
, R. S.
, 2002, “Mechanics of Carbon Nanotubes
,” Appl. Mech. Rev.
, 55
, pp. 495
–533
.9.
Sevantie
, J.
, and Gaspard
, P.
, 2006, “Translational Dynamics and Friction in Double-Walled Carbon Nanotubes
,” Phys. Rev. B
, 73
, 125428
.10.
Wong
, L. H.
, Zhao
, Y.
, Chen
, G. H.
, and Chwang
, A. T.
, 2006, “Grooving the Carbon Nanotube Oscillators
,” Appl. Phys. Lett.
, 88
, 183107
.11.
Liu
, P.
, Zhang
, Y. W.
, and Lu
, C.
, 2005, “Oscillatory Behavior of C60-Nanotube Oscillators: A Molecular-Dynamics Study
,” J. Appl. Phys.
, 97
, 094313
.12.
Raffi-Tabar
, H.
, 2008, Computational Physics of Carbon Nanotubes
, 1st ed., Cambridge
, New York
.13.
Su
, H.
, Goddard
, W. A.
, and Zhao
, Y.
, 2006, “Dynamic Friction Force in a Carbon Peapod Oscillator-Nanotechnology
,” Nanotechnology
, 17
, p. 5691
.14.
Dresselhaus
, M. S.
, Dresselhaus
, G.
, and Eklund
, P. C.
, 1995, Science of Fullerenes and Carbon Nanotubes
, Academic
, CA
.15.
Charlier
, J. C.
, and Rignanese
, G. M.
, 2001, “Quasiparticle Effects on Tunneling Currents: A Study of C2H4 Adsorbed on the Si(001)- (2 × 1) Surface
,” Phys. Rev. Lett.
, 86
, p. 5970
.16.
Pincak
, R.
, and Osipov
, V. A.
, 2003, “Localized Electron States Near Pentagons in Variously Shaped Carbon Nanoparticles
,” Phys. Lett. A
, 314
, pp. 315
–321
.17.
Ge
, M.
, and Sattler
, K.
, 1994, “Observation of Fullerene Cones
,” Chem. Phys. Lett.
, 220
, pp. 192
–196
.18.
Kim
, Y.A.
, Hayashi
, T.
, Osawa
, K.
, Endo
, M.
, and Dresselhaus
, M. S.
, 2003, “Cone-Type Multi-Shell in the Hallow Core of Multi-Wall Carbon Nanotube
,” Chem. Phys. Lett.
, 367
, pp. 537
–540
.19.
Jordan
, S. P.
, and Crespi
, B. H.
, 2004, “Theory of Carbon Nanocones: Mechanical Chiral Inversion of a Micron-Scale Three-Dimensional Object
,” Phys. Rev. Lett.
, 93
, 255504
.20.
Baowan
, D.
, and Hill
, J. M.
, 2008, “Equilibrium Locations for Nested Carbon Nanocones
,” J. Math. Chem.
, 43
, pp. 1489
–1504
.21.
Baowan
, D.
, and Hill
, J. M.
, 2008, “Gigahertz Oscillators Constructed From Carbon Nanocones Inside Carbon Nanotubes
,” J. Comput. Theor. Nanosci.
, 5
, pp. 302
–310
.22.
Ansari
, R.
, and Motevalli
, B.
, 2009, “The Effects of Geometrical Parameters on Force Distributions and Mechanics of Carbon Nanotubes: A Critical Study
,” Commun. Nonlinear Sci. Numur. Simul.
, 14
, pp. 4246
–4263
.23.
Naess
, S. N.
, Elgsaeter
, A.
, Helgesen
, G.
, and Knudsen
, K. D.
, 2009, “Carbon Nanocones: Wall Structure and Morphology
,” Sci. Technol. Adv. Mater.
, 10
, 065002
.24.
Cox
, B. J.
, Thamwattana
, N.
, and Hill
, J. M.
, 2007, “Carbon Molecules Oscillating in Carbon Nanotube Bundles
,” Proc. R. Soc. London, Ser. A
, 463
, p. 477
.25.
Cox
, B. J.
, Thamwattana
, N.
, and Hill
, J. M.
, 2007, “Mechanics of Atoms and Fullerenes in Single-Walled Carbon Nanotubes
,” Proc. R. Soc. London, A
, 463
, pp. 461
–476
.Copyright © 2011
by American Society of Mechanical Engineers
You do not currently have access to this content.