Universidad de Granada
Facultad de Ciencias



List of research publications that cited CoNTub v1.0
(Last Updated May-14-2011)


  • Lim, M.C.G., Zhong, Z.W.
    Dynamical behavior of copper atoms in a carbon nanotube channel
    (2011) Carbon, 49 (3), pp. 996-1005.

  • Lim, M.C.G., Zhong, Z.W.
    Effects of electromigration on copper atoms in carbon nanotube channels
    (2011) Physica A: Statistical Mechanics and its Applications, 390 (5), pp. 963-971.

  • Tylianakis, E., Dimitrakakis, G.K., Melchor, S., Dobado, J.A., Froudakis, G.E.
    Porous nanotube network: A novel 3-D nanostructured material with enhanced hydrogen storage capacity
    (2011) Chemical Communications, 47 (8), pp. 2303-2305.

  • Warner, J.H., Plant, S.R., Young, N.P., Porfyrakis, K., Kirkland, A.I., Briggs, G.A.D.
    Atomic scale growth dynamics of nanocrystals within carbon nanotubes
    (2011) ACS Nano, 5 (2), pp. 1410-1417.

  • Lim, M.C.G., Zhong, Z.W.
    The junction size effect on the electromigration flow of copper atoms through carbon-nanotube junctions
    (2011) Physica E: Low-Dimensional Systems and Nanostructures, 43 (4), pp. 862-868.

  • Martin-Martinez, F.J., Melchor, S., Dobado, J.A.
    Causes of energy destabilization in carbon nanotubes with topological defects
    (2011) Theoretical Chemistry Accounts, 128 (4), pp. 445-456.

  • Scarpa, F., Narojczyk, J.W., Wojciechowski, K.W.
    Unusual deformation mechanisms in carbon nanotube heterojunctions (5,5)-(10,10) under tensile loading
    (2011) Physica Status Solidi (B) Basic Research, 248 (1), pp. 82-87.

  • Lim, M.C.G., Zhong, Z.W.
    Atomic arrangement of copper atoms in a carbon nanotube channel under electromigration conditions
    (2010) Chemical Physics Letters, 500 (1-3), pp. 49-53.

  • Kang, Z., Li, M., Tang, Q.
    Buckling behavior of carbon nanotube-based intramolecular junctions under compression: Molecular dynamics simulation and finite element analysis
    (2010) Computational Materials Science, 50 (1), pp. 253-259.

  • Ritz, B., Heller, H., Myalitsin, A., Kornowski, A., Martin-Martinez, F.J., Melchor, S., Dobado, J.A., Juarez, B.H., Weller, H., Klinke, C.
    Reversible attachment of platinum alloy nanoparticles to nonfunctionalized carbon nanotubes
    (2010) ACS Nano, 4 (4), pp. 2438-2444.

  • Siwy, Z.S., Davenport, M.
    Biosensors: Making nanopores from nanotubes: Single-walled carbon nanotubes can be used to detect single DNA molecules as they pass through the nanotubes under the influence of an applied electric field
    (2010) Nature Nanotechnology, 5 (3), pp. 174-175.

  • Liu, W.C., Meng, F.Y., Shi, S.Q.
    Tensile deformation behavior of carbon nanotube junctions
    (2009) Technical Proceedings of the 2009 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2009, 3, pp. 450-453.

  • Avila, A.F., Lacerda, G.R.S.
    Atomistic simulation of carbon nanotubes with defects
    (2009) 50th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, art. no. 2009-2490, .

  • Warner, Jamie H.; Schaffel, Franziska; Zhong, Guofang; Rummeli, Mark H.; Buchner, Bernd; Robertson, John; Briggs, G. Andrew D. Investigating the Diameter-Dependent Stability of Single-Walled Carbon Nanotubes. (2009) ACS Nano, 3 (6), pp 1557-1563

  • Sabzyan, H., Tavangar, Z.
    Characterization of the flow of the CO/CO2 gases through carbon nanotube junctions using molecular dynamic simulations
    (2009) Chemical Physics, 362 (3), pp. 120-129.

  • Chandra, B., Bhattacharjee, J., Purewal, M., Son, Y.-W., Wu, Y., Huang, M., Yan, H., Heinz, T.F., Kim, P., Neaton, J.B., Hone, J.
    Molecular-scale quantum dots from carbon nanotube heterojunctions
    (2009) Nano Letters, 9 (4), pp. 1544-1548.

  • Garate, J.-A., English, N.J., MacElroy, J.M.D.
    Carbon nanotube assisted water self-diffusion across lipid membranes in the absence and presence of electric fields
    (2009) Molecular Simulation, 35 (1-2), pp. 3-12.

  • Contreras, M.L., Benitez, E., Alvarez, J., Rozas, R. Algorithm for Nanotubes Computer Generation with Different Configurations (2009) Algorithms, 2, 108-120.

  • Graovac, A., Laszlo, I., Pisanski, T.
    Shape analysis of carbon nanotube junctions
    (2008) Match, 60 (3), pp. 917-926.

  • Qin, Z., Qin, Q.-H., Feng, X.-Q.
    Mechanical property of carbon nanotubes with intramolecular junctions: Molecular dynamics simulations
    (2008) Physics Letters, Section A: General, Atomic and Solid State Physics, 372 (44), pp. 6661-6666.

  • Pei, Q.X., Lim, C.G., Cheng, Y., Gao, H.
    Molecular dynamics study on DNA oligonucleotide translocation through carbon nanotubes
    (2008) Journal of Chemical Physics, 129 (12), art. no. 125101, .

  • Aguirre-Valderrama, A., Dobado, J.A.
    CAL3JHH: A Java program to calculate the vicinal coupling constants (3JH,H) of organic molecules
    (2008) Journal of Computer-Aided Molecular Design, 22 (12), pp. 907-914.

  • Laszlo, I.
    Construction of carbon nanotube junctions
    (2008) Croatica Chemica Acta, 81 (2), pp. 267-272.

  • Martin-Martinez, F.J., Melchor, S., Dobado, J.A.
    Clar- Kekule structuring in armchair carbon nanotubes
    (2008) Organic Letters, 10 (10), pp. 1991-1994.

  • Pampaloni, F., Ernst-Ludwig, F. Microtubule architecture: inspiration for novel carbon nanotube-based biomimetic materials (2008) Trends in Biotechnology (2008), 26, 302-310.

  • Bai, P., Lam, K.-T., Chang, K.K.-F., Li, E.
    On transport properties of CNT metal/semiconductor/metal heterostructures using first principles methods
    (2007) 2007 7th IEEE International Conference on Nanotechnology - IEEE-NANO 2007, Proceedings, art. no. 4601251, pp. 549-553.

  • Shafiqzzaman, Md., Udomvech, A., Kerdcharoen, T.
    Theoretical studies of pentagon-heptagon pair defects in carbon nanotube junctions
    (2007) 2007 7th IEEE International Conference on Nanotechnology - IEEE-NANO 2007, Proceedings, art. no. 4601250, pp. 545-548.

  • Laszlo, I.
    Construction of atomic arrangement for carbon nanotube junctions
    (2007) Physica Status Solidi (B) Basic Research, 244 (11), pp. 4265-4268.

  • Arora, G., Sandler, S.I.
    Nanoporous carbon membranes for separation of nitrogen and oxygen: Insight from molecular simulations
    (2007) Fluid Phase Equilibria, 259 (1 SPEC. ISS.), pp. 3-8.

  • Yao, Y., Li, Q., Zhang, J., Liu, R., Jiao, L., Zhu, Y.T., Liu, Z.
    Temperature-mediated growth of single-walled carbon-nanotube intramolecular junctions
    (2007) Nature Materials, 6 (4), pp. 293-296.

  • Arora, G., Sandler, S.I.
    Molecular sieving using single wall carbon nanotubes
    (2007) Nano Letters, 7 (3), pp. 565-569.

  • Laszlo, I.
    Geometric and electronic structure of carbon nanotube junctions obtained by intersection of cylinders
    (2006) Physica Status Solidi (B) Basic Research, 243 (13), pp. 3468-3471.

  • Laszlo, I.
    Topological description and construction of single wall carbon nanotube junctions
    (2005) Croatica Chemica Acta, 78 (2), pp. 217-221.

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