Tomanek photo
CNL
List of Publications
David Tománek

1.   J.-B. Suck, H. Rudin, H.-J. Güntherodt, D. Tománek, H. Beck, C. Morkel and W. Gläser, Frequency distribution and dynamical structure factor of a metallic glass, J. Phys. (Paris) Colloque C8, 175 (1980).
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2.   V. Kumar, D. Tománek and K.H. Bennemann, Surface core-level binding energy shifts in alloys, Solid State Commun. 39, 987 (1981).
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3.   D. Tománek, V. Kumar, S. Holloway and K.H. Bennemann, Semiempirical theory for surface core-level shifts, Solid State Commun. 41, 273 (1982).
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4.   D. Tománek, S. Mukherjee, V. Kumar and K.H. Bennemann, Calculation of chemisorption and absorption induced surface segregation, Surf. Sci. 114, 11 (1982).
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5.   H.-J. Brocksch, D. Tománek and K.H. Bennemann, Surface core-level shifts in mixed-valent systems, in "Valence instabilities", P. Wachter and H. Boppart (eds.), North-Holland (Amsterdam, 1982), p.291 ff.
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6.   H.-J. Brocksch, D. Tománek and K.H. Bennemann, Calculation of surface core-level shifts in Sm1-xYxS, Phys. Rev. B25, 7102 (1982).
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7.   M. Grunze, C.R. Brundle and D. Tománek, Adsorption and decomposition of ammonia on a W(110) surface: Photoemission fingerprinting and interpretation of the core-level binding energies using the equivalent core approximation, Surf. Sci. 119, 133 (1982).
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8.   D. Tománek, P.A. Dowben and M. Grunze, Thermodynamic interpretation of core-level binding energies in adsorbates, Surf. Sci. 126, 112 (1983).
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9.   P.A. Dowben, M. Grunze and D. Tománek, Bromine and iodine adsorption on a Fe(100) surface, Physica Scripta T4, 106 (1983).
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10.   D. Tománek, S. Mukherjee and K.H. Bennemann, Simple theory for the electronic and atomic structure of small clusters, Phys. Rev. B28, 665 (1983); ibid. B29, 1076 (1984)(E).
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11.   H.-J. Brocksch, D. Tománek and K.H. Bennemann, Calculation of surface core-level shifts in intermediate-valence compounds, Phys. Rev. B27, 7313 (1983).
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12.   D. Tománek and K.H. Bennemann, LCAO-type calculations of the effect of K- and Cl- atoms on the dissociation of CO at the Ni(111) surface, Surf. Sci. 127, L111 (1983).
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13.   D. Tománek, Elektronische Theorie für Rumpfniveauverschiebungen an Festkörperoberflächen und in Adsorbaten, PhD Thesis, Freie Universität Berlin, Berlin (1983).
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14.   D. Tománek, H.-J. Brocksch and K.H. Bennemann, Calculation of the structural energy of the unreconstructed and (1x2) reconstructed Pt(110) surface, Surf. Sci. 138, L129 (1984).
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15.   S. Mukherjee, D. Tománek and K.H. Bennemann, Stability of positively charged metallic clusters, Chem. Phys. Lett. 119, 241 (1985).
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16.   D. Tománek and K.H. Bennemann, Total energy calculations for the N2 dissociation on Fe(111), Characterization of precursor and dissociative states, Phys. Rev. B31, 2488 (1985).
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17.   D. Tománek, A.A. Aligia and C.A. Balseiro, Calculation of elastic strain and electronic effects on surface segregation, Phys. Rev. B32, 5051 (1985).
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18.   D. Tománek, H.J. Kreuzer and J.H. Block, Tight-binding approach to field desorption, N2 on Fe(111), Surf. Sci. 157, L315 (1985).
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19.   D. Tománek, R. Hauert, P. Oelhafen, R. Schlögl and H.-J. Güntherodt, Catalysis on metallic glasses: CO dissociation on Ni-Zr alloys, Surf. Sci. 160, L493 (1985).
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20.   D. Tománek, Simple criterion for the reconstruction of clean and adsorbate-covered metal surfaces, Phys. Lett. 113A, 445 (1986).
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21.   D. Tománek and K.H. Bennemann, Electronic model for energies, relaxations and reconstruction trends at metal surfaces, Surf. Sci. 163, 503 (1985).
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22.   D. Tománek, H.J. Kreuzer and J.H. Block, Theoretical approach to field desorption: Tight-binding calculation of N2 on Fe(111), J. Phys. (Paris) Colloque 47, 139 (1986).
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23.   D. Tománek and M.A. Schluter, Calculation of magic numbers and the stability of small Si clusters, Phys. Rev. Lett. 56, 1055 (1986).
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24.   D. Tománek and M.A. Schluter, Structure and bonding of small semiconductor clusters, Phys. Rev. B 36, 1208 (1987).
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25.   H. Dreyssé, D. Tománek and K.H. Bennemann, Calculation of interactions between adsorbates on transition metal surfaces, Ber. Bunsenges. Phys. Chem. 90, 245 (1986).
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26.   H. Dreyssé, D. Tománek and K.H. Bennemann, Multi-adatom interactions on metal surfaces, Surf. Sci. 173, 538 (1986).
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27.   D. Tománek, S.G. Louie and C.T. Chan, Ab initio calculation of coverage-dependent adsorption properties of H on Pd(001), Phys. Rev. Lett. 57, 2594 (1986); ibid. 58, 287 (1987) (E).
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28.   D. Tománek, S.G. Louie, H.J. Mamin, D.W. Abraham, R.E. Thomson, E. Ganz and J. Clarke, Theory and observation of highly asymmetric atomic structure in scanning tunneling microscopy images of graphite, Phys. Rev. B 35(R), 7790 (1987).
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29.   D. Tománek and S.G. Louie, First-principles calculation of highly asymmetric structure in scanning tunneling microscopy images of graphite, Phys. Rev. B 37, 8327 (1988).
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30.   S.B. Zhang, D. Tománek, S.G. Louie, M.L. Cohen and M.S. Hybertsen, Quasiparticle calculation of valence band off-set of AlAs-GaAs(001), Solid State Commun. 66, 585 (1988).
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31.   D. Tománek, R. Wentzcovitch, S.G. Louie and M.L. Cohen, Calculation of Electronic and Structural Properties of BC3, Phys. Rev. BR 37, 3134 (1988).
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32.   R.M. Wentzcovitch, M.L. Cohen, S.G. Louie and D. Tománek, sigma-States Contribution to the Conductivity of BC3, Solid State Communications 67, 515 (1988).
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33.   G.F. Bertsch and D. Tománek, Thermal Line Broadening in Small Metal Clusters, Phys. Rev. B 40, 2749 (1989).
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34.   D. Tománek, C. Sun, N. Sharma and L. Wang, Thermal Effects in the Equilibrium Structure and Size Distribution of Small Si Clusters, Phys. Rev. B 39, 5361 (1989).
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35.   S.B. Zhang, D. Tománek, Marvin L. Cohen, Steven G. Louie, and Mark S. Hybertsen, Evaluation of Quasiparticle Energies for Semiconductors without Inversion Symmetry, Phys. Rev. B 40, 3162 (1989).
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36.   S.B. Zhang, Marvin L. Cohen, Steven G. Louie, D. Tománek, and Mark S. Hybertsen, Quasiparticle Band Offset at the (001) Interface and Band Gaps in Ultrathin Superlattices of GaAs-AlAs Heterojunctions, Phys. Rev. B 41, 10058 (1990).
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37.   Z. Sun and D. Tománek, Cold Fusion: How Close Can Deuterium Atoms Come Inside Palladium?, Phys. Rev. Lett. 63, 59 (1989).
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38.   D. Tománek, G. Overney, H. Miyazaki, S.D. Mahanti and H.J. Güntherodt, Theory for the Atomic Force Microscopy of Deformable Surfaces, Phys. Rev. Lett. 63, 876 (1989), and 63, 1896(E) (1989).
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39.   S.B. Zhang, Mark S. Hybertsen, Marvin L. Cohen, Steven G. Louie, and D. Tománek, Quasiparticle Band Gaps for Ultrathin GaAs/AlAs(001) Superlattices, Phys. Rev. Lett. 63, 1495 (1989).
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40.   W. Zhong and D. Tománek, First-Principles Theory of Atomic-Scale Friction, Phys. Rev. Lett. 64, 3054 (1990).
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41.   W. Zhong, G. Overney and D. Tománek, Limits of Resolution in Atomic Force Microscopy Images of Graphite, Europhys. Lett. 15, 49 (1991).
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42.   W. Zhong, G. Overney and D. Tománek, Theory of Atomic Force Microscopy on Elastic Surfaces, in The Structure of Surfaces III, edited by S.Y. Tong, M.A. Van Hove, X. Xide and K. Takayanagi, Springer-Verlag, Berlin (1991), p.243.
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43.   G. Overney, W. Zhong and D. Tománek, Theory of Elastic Tip-Surface Interactions in Atomic Force Microscopy, J. Vac. Sci. Technol. B 9, 479 (1991).
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44.   D. Tománek, Z. Sun and S.G. Louie, Ab Initio Calculation of Chemisorption Systems: H on Pd(001) and Pd(110), Phys. Rev. B 43, 4699 (1991).
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45.   S. Saito, G.F. Bertsch and D. Tománek, Collective Electronic Excitations in Small Metal Clusters, Phys. Rev. BR 43, 6804 (1991).
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46.   D. Tománek and W. Zhong, Palladium-Graphite Interaction Potentials Based on First-Principles Calculations, Phys. Rev. B 43, 12623 (1991).
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47.   G. Overney, D. Tománek, W. Zhong, Z. Sun, H. Miyazaki, S.D. Mahanti, and H.J. Güntherodt, Theory for the Atomic Force Microscopy of Layered Elastic Surfaces, J. Phys.: Condens. Matter 4, 4233 (1992).
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48.   D. Tománek, W. Zhong and H. Thomas, Calculation of an Atomically Modulated Friction Force in Atomic Force Microscopy, Europhys. Lett. 15, 887 (1991).
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49.   D. Tománek and Michael A. Schluter, Growth Regimes of Carbon Clusters, Phys. Rev. Lett. 67, 2331 (1991).
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50.   Yang Wang, D. Tománek and G.F. Bertsch, Stiffness of a Solid Composed of C60 Clusters, Phys. Rev. BR 44, 6562 (1991).
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51.   W. Zhong, Y.S. Li and D. Tománek, Effect of Adsorbates on Surface Phonon Modes: H on Pd(001) and Pd(110), Phys. Rev. B 44, 13053 (1991).
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52.   George F. Bertsch, Aurel Bulgac, David Tománek and Yang Wang, Collective Plasmon Excitations in C60 Clusters, Phys. Rev. Lett. 67, 2690 (1991).
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53.   M. Schluter, M. Lannoo, M. Needels, G.A. Baraff, and D. Tománek, Electron-Phonon Coupling and Superconductivity in Alkali Intercalated C60 Solid, Phys. Rev. Lett. 68, 526 (1992).
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54.   C.J. Brabec, E. Anderson, B.N. Davidson, S.A. Kajihara, Q.-M. Zhang, J. Bernholc and D. Tománek, C20 Molecular Structures as Precursors to C60 Fullerene Formation, Phys. Rev. BR 46, 7326 (1992).
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55.   M. Schluter, M. Lannoo, M. Needels, G.A. Baraff, and D. Tománek, Superconductivity in Alkali Intercalated C60, Proceedings of the International Symposium on the Physics and Chemistry of Finite Systems: From Clusters to Crystals, Richmond, Virginia (USA), October 8-12, 1991.
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56.   M. Lannoo, G.A. Baraff, M. Schlüter, and D. Tománek, Jahn-Teller Effect for the Negatively Charged C60 Molecule: Analogy with the Silicon Vacancy, Phys. Rev. BR 44, 12106 (1991).
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57.   M. Schlüter, M. Lannoo, M. Needels, G.A. Baraff, and D. Tománek, Superconductivity in Alkali Intercalated C60, J. Phys. Chem. Solids 53, 1473 (1992). Reprinted in "The Fullerenes", edited by H.W. Kroto, J.E. Fischer and D.E. Cox, Pergamon Press, London 1993, p. 303.
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58.   Yang Wang, George F. Bertsch and David Tománek, Hyperpolarizability of the C60 Fullerene Cluster, Z. Phys. D 25, 181 (1993).
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59.   G. Overney, W. Zhong, and D. Tománek, Structural Rigidity and Low Frequency Vibrational Modes of Long Carbon Tubules, Z. Phys. D 27, 93 (1993).
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60.   David Tománek, Theory of Atomic-Scale Friction, Chapter 11 of "Scanning Tunneling Microscopy III", edited by H.-J Güntherodt and R. Wiesendanger, Springer Series in Surface Sciences, vol. 29, published by Springer (Berlin 1993), pp. 269-292.
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61.   M. Schluter, M. Lannoo, M. Needels, G.A. Baraff, and D. Tománek, Reply to the Comment of S. Chakravarty, S. Khlebnikov and S. Kivelson on "Electron-Phonon Coupling in Alkali Intercalated C60 Solid", Phys. Rev. Lett. 69, 213 (1992).
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62.   W. Zhong, Y. Cai and D. Tománek, Mechanical Stability of Pd-H Systems: A Molecular Dynamics Study, Phys. Rev. B 46, 8099 (1992).
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63.   Yang Wang, David Tománek, George Bertsch and Rodney Ruoff, Stability of C60 Fullerite Intercalation Compounds, Phys. Rev. B 47, 6711 (1993).
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64.   W. Zhong, G. Overney, and D. Tománek, Structural Properties of Fe Crystals, Phys. Rev. B 47, 95 (1993).
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65.   W. Zhong, D. Tománek and George F. Bertsch, Total Energy Calculations for Extremely Large Clusters: The Recursive Approach, Solid State Commun. 86, 607 (1993).
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66.   Ray H. Baughman, Douglas S. Galv„o, Changxing Cui, Yang Wang, and David Tománek, Fullereneynes: A New Family of Porous Fullerenes, Chem. Phys. Lett. 204, 8 (1993).
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67.   W. Zhong, Y. Cai and D. Tománek, Computer simulation of hydrogen embrittlement in metals, Nature 362, 435 (1993).
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68.   Rodney S. Ruoff, Yang Wang, and David Tománek, Lanthanide and Actinide Based Fullerite Compounds: Potential AxC60Superconductors?, Chem. Phys. Lett. 203, 438 (1993).
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69.   David Tománek, Response of Carbon Fullerene Clusters to Electromagnetic Fields. Proceedings of the 1992 Enrico Fermi School on Physics, Varenna, July 1992, pages 267.
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70.   G. Overney, W. Zhong, and D. Tománek, Effect of Charge Transfer on the Structure of Stage-1 Alkali Metal Graphite Intercalation Compounds: A First Principles Study, submitted for publication.
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71.   D. Tománek, W. Zhong, and E. Krastev, Stability of Multi-Shell Fullerenes, Phys. Rev. B 48, 15461 (1993).
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72.   Michael Schlüter, M. Lannoo, M. Needels, G.A. Baraff, and D. Tománek, Electron-Phonon Coupling and Superconductivity in Alkali Intercalated C60 Solid, The Scientist, vol. 7, No. 2, issue of 25 January 1993, p. 16.
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73.   Yang Wang, Caio Lewenkopf, David Tománek, George Bertsch, and Susumu Saito, Collective Electronic Excitations and their Damping in Small Alkali Clusters, Chem. Phys. Lett. 205, 521 (1993).
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74.   Yang Wang, David Tománek, and Rodney S. Ruoff, Stability of M@C60 Endohedral Complexes, Chem. Phys. Lett. 208, 79 (1993).
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75.   M.A. Schlüter, M. Lannoo, M. Needels, G.A. Baraff, and D. Tománek, Superconductivity in Alkali-Intercalated C60, Materials Science and Engineering B 19, 129 (1993).
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76.   David Tománek, Modifying the Buckyball. Proceedings of the "Theory of Atomic and Molecular Clusters" (TAMC-1) conference in Leer, Germany, June 13-18, 1993, edited by E. Hilf, Computational Materials Science 2, 468 (1994).
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77.   Y.S. Li and D. Tománek, How free are encapsulated atoms in C60? Chem. Phys. Lett. 221, 453 (1994).
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78.   David Tománek, Yang Wang, and Rodney S. Ruoff, Stability of Fullerene-Based Systems, J. Phys. Chem. Solids 54, 1679 (1993).
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79.   David Tománek, Collective electronic excitations in carbon fullerene clusters, Comments on Atomic and Molecular Physics 31, 337 (1995).
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80.   Seong Gon Kim and David Tománek, Melting the fullerenes: A molecular dynamics study, Phys. Rev. Lett. 72, 2418 (1994).
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81.   Tibor F. Nagy, Kevin J. Conley and D. Tománek, Vibrational spectra of multi-shell fullerenes, Phys. Rev. B 50, 12207 (1994).
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82.   P. Jund, W. Zhong, and D. Tománek, Stability and elastic properties of hydrogen loaded Ti1-xAlx alloys: An ab initio study, Phys. Rev. B 51, 9569 (1995).
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83.   Peter Borrmann, Bernd Diekmann, Eberhard R. Hilf, David Tománek, Magnetism of small transition metal clusters and the effects of isomerization, Surface Rev. and Lett. 3, 463 (1996).
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84.   P. Jund, S.G. Kim, D. Tománek, and J. Hetherington, Stability and fragmentation of complex structures in ferrofluids, Phys. Rev. Lett. 74, 3049 (1995).
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85.   Ting Guo, Pavel Nikolaev, Andrew G. Rinzler, David Tománek, Daniel T. Colbert, and Richard E. Smalley, Self-Assembly of Tubular Fullerenes, J. Phys. Chem. 99, 10694 (1995).
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86.   A.G. Rinzler, J.H. Hafner, P. Nikolaev, L. Lou, S.G. Kim, D. Tománek, P. Nordlander, D.T. Colbert, and R.E. Smalley, Unraveling Nanotubes: Field Emission from an Atomic Wire, Science 269, 1550 (1995).
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87.   David Tománek, Building a Better World with Buckyballs. J. Korean Phys. Soc. 28, S609 (1995).
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88.   James L. Dye, Michael J. Wagner, Gregor Overney, Rui H. Huang, Tibor F. Nagy, and David Tománek, Cavities and channels in electrides, J. Am. Chem. Soc. 118, 7329 (1996).
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89.   D. Tománek and Y.S. Li, Ionicity of the M-C60 bond in M@C60 endohedral complexes, Chem. Phys. Lett. 243, 42 (1995).
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90.   David Tománek, Seong Gon Kim, Philippe Jund, Peter Borrmann, Heinrich Stamerjohanns, and Eberhard R. Hilf, Self-assembly of magnetic nanostructures, Z. Phys. D 40, 539 (1997).
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91.   Peter Borrmann, Heinrich Stamerjohanns, Eberhard Hilf, Philippe Jund, Seong Gon Kim, and David Tománek, Thermodynamics of finite magnetic two-isomer systems, J. Chem. Phys. 111, 10689 (1999).
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92.   David Tománek, Steffen Wilke, and Matthias Scheffler, Hydrogen-induced polymorphism of the Pd(110) surface, Phys. Rev. Lett. 79, 1329 (1997).
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93.   David Tománek, The growth and the death of carbon fullerenes and nanotubes. In "Large Clusters of Atoms and Molecules", ed. by T. P. Martin, Nato ASI series vol. 313 (Kluwer Academic Publishers, Netherlands, 1996), p. 405.
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94.   Andreas Thess, Roland Lee, Pavel Nikolaev, Hongjie Dai, Pierre Petit, Jerome Robert, Chunhui Xu, Young Hee Lee, Seong Gon Kim, Daniel T. Colbert, Gustavo Scuseria, David Tománek, John E. Fischer, and Richard E. Smalley, Crystalline ropes of metallic carbon nanotubes, Science 273, 483 (1996).
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95.   H. Grönbeck, D. Tománek, S.G. Kim, and A. Rosén, Does Hydrogen Pre-Melt Palladium Clusters? Chem. Phys. Lett. 264, 39 (1997).
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96.   Seong Gon Kim, Young Hee Lee, Peter Nordlander, and David Tománek, Disintegration of finite carbon chains in electric fields, Chem. Phys. Lett. 264, 345 (1997).
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97.   Peter Borrmann, Heinrich Stamerjohanns, Eberhard Hilf, and David Tománek, Paradoxical Magnetic Cooling, European  Phys. J. B 19, 117 (2000).
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98.   David Tománek, Daniel T. Colbert, and Richard E. Smalley, Why are carbon nanotubes uniformly thick? (In preparation).
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99.   Peter Borrmann, David Tománek, Seong Gon Kim, Philippe Jund, and Andrew Kaminski, Bursting microspheres by field-induced restructuring of magnetic aggregates (submitted for publication).
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100.   H. Grönbeck, D. Tománek, S.G. Kim and A. Rosén, Hydrogen induced melting of palladium clusters, Z. Phys. D 40, 469 (1997).
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101.   Young Hee Lee, Seong Gon Kim, and David Tománek, Field-induced unraveling of carbon nanotubes, Chem. Phys. Lett. 265, 667 (1997).
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102.   Young Hee Lee, Seong Gon Kim, and David Tománek, Catalytic growth of single-wall nanotubes: An ab initio study, Phys. Rev. Lett. 78, 2393 (1997).
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103.   Young-Kyun Kwon, Young Hee Lee, Seong-Gon Kim, Philippe Jund, David Tománek, and Richard E. Smalley, Morphology and stability of growing multi-wall carbon nanotubes, Phys. Rev. Lett. 79, 2065 (1997).
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104.   D. Östling, D. Tománek, and A. Rosén, Electronic structure of single-wall, multi-wall, and filled carbon nanotubes, Phys. Rev. B 55, 13980 (1997).
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105.   S.G. Kim, P. Jund, D. Tománek, W. Zhong, and Richard Enbody, Massively parallelized calculations of carbon fullerene collisions (in preparation).
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106.   S.G. Kim, Y.H. Lee, and D. Tománek, Force calculations using the recursion technique. (in preparation).
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107.   S.G. Kim, P. Jund, D. Tománek, P. Borrmann, M. Boers, and W. Punch, Search for the equilibrium structure of dipolar aggregates, (in preparation).
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108.   David Wales and David Tománek, Equilibrium structures of point charges on a sphere (in preparation).
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109.   A. Rosén, D. Östling, P. Apell, and D. Tománek, From Astrophysics to Mesoscopic Physics - A Sightseeing Tour in the World of Clusters and Fullerenes, in "Fullerenes and Photonics III", SPIE Proceedings volume 2854, edited by Zakya H. Kafafi, Proceedings of the Symposium of SPIE - The International Society for Optical Engineering - in Denver, CO, 5-6 August 1996, pp. 2-16.
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110.   Y. P. Feng, C. K. Ong, H. C. Poon, and D. Tománek, Tight-Binding Molecular Dynamics Simulations of Semiconductor Alloys: Clusters, Surfaces and Defects, J. Phys.: Condens. Matter 9, 4345 (1997).
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111.   K. German, H. Mizes, L. Belkhir, R. Lewis, S.G. Kim, and D. Tománek, Adhesion and chaining of magnetic particles, Proc. 20th annual meeting of the Adhesion Society in Hilton Head, SC, February 25, 1997.
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112.   Jan Westergren, Henrik Grönbeck, Seong-Gon Kim, and David Tománek, Noble gas temperature control of metal clusters: A molecular dynamics study, J. Chem. Phys. 107, 3071 (1997).
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113.   Young-Kyun Kwon, David Tománek, Young Hee Lee, Kee Hag Lee, and Susumu Saito, Do carbon nanotubes spin when bundled? J. Mater. Res. 13, 2363 (1998).
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114.   L.G. Bulusheva, A.V. Okotrub, D.A. Romanov, and D. Tománek, Electronic structure of (n,0) zigzag carbon nanotubes: Cluster and crystal approach, J. Phys. Chem. A 102, 975 (1998).
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115.   Alexander V. Okotrub, Lyubov G. Bulusheva and David Tománek, X-ray spectroscopic and quantum-chemical study of carbon tubes produced by arc-discharge, Chem. Phys. Lett. 289, 341 (1998).
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116.   Young-Kyun Kwon, Susumu Saito, and David Tománek, Effect of inter-tube coupling on the electronic structure of carbon nanotube ropes, Phys. Rev. B 58, R13314 (1998).
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117.   David Tománek, Self-assembly and electronic structure of bundled single- and multi-wall nanotubes. In "Electronic Properties of Novel Materials - Progress in Molecular Nanostructures", Proceedings of the XII International Winterschool in Kirchberg, Tyrol, March 1998, edited by Hans Kuzmany, Jörg Fink, Michael Mehring, and Siegmar Roth, AIP Proceedings Vol. 442, pp. 159-163.
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118.   Young-Kyun Kwon, David Tománek, and Sumio Iijima, "Bucky-Shuttle" Memory Device: Synthetic Approach and Molecular Dynamics Simulations, Phys. Rev. Lett. 82, 1470 (1999).
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119.   L.G. Bulusheva, A.V. Okotrub, D.A. Romanov, and D. Tománek, Electronic structure of carbon nanotubes, Phys. Low-Dim. Struct. 3/4, 107 (1998).
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120.   Young-Kyun Kwon and David Tománek, Electronic and Structural Properties of Multi-Wall Carbon Nanotubes, Phys. Rev. B 58, R16001 (1998).
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121.   Petr Král and David Tománek, Laser driven atomic pump, Phys. Rev. Lett. 82, 5373 (1999).
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122.   David Tománek, Self-assembly of carbon nanotubes, Mol. Mat. 10, 9 (1998).
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123.   David Tománek, Interplay Between Structural and Electronic Properties of Carbon Nanotubes. In "Collective Excitations in Fermi and Bose Systems", Proceedings of the International Workshop on Collective Excitations in Fermi and Bose Systems in Serra Negra, Sao Paulo, Brazil, September 1998.
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124.   Mark Brehob, Richard Enbody, Young-Kyun Kwon, and David Tománek, The Potential of Carbon-Based Memory Systems. "Memory Technology, Design and Testing", Proceedings of the IEEE conference MTDT'99, R. Rajsuman, and T. Wik (eds.), p. 110 (1999).
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125.   Stefano Sanvito, Young-Kyun Kwon, David Tománek, and Colin J. Lambert, Fractional quantum conductance in carbon nanotubes, Phys. Rev. Lett. 84, 1974 (2000).
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126.   S. Sanvito, Y.-K. Kwon, D. Tománek, and C.J. Lambert, Quantum transport in inhomogeneous multi-wall nanotubes. "Science and Application of Nanotubes", edited by D. Tománek and R.J. Enbody, Kluwer Academic Press (2000), p. 339. Proceedings of the Nanotube'99 Conference in East Lansing, Michigan, July 24-27, 1999.
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127.   Young-Kyun Kwon and David Tománek, Orientational melting in carbon nanotube ropes, Phys. Rev. Lett. 84, 1483 (2000) and ibid. 106, 219901 (2011) (E).
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128.   Eugene J. Mele, Petr Král, and David Tománek, Coherent control of photocurrents in graphene and carbon nanotubes, Phys. Rev. B 61, 7669 (2000).
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129.   V.V. Belavin, L.G. Bulusheva, A.V. Okotrub, and D. Tománek, Stability, electronic structure and reactivity of the polymerized fullerite forms, J. Phys. Chem. Solids 61, 1901 (2000).
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130.   Savas Berber, Young-Kyun Kwon, and David Tománek, Unusually High Thermal Conductivity of Carbon Nanotubes, Phys. Rev. Lett. 84, 4613 (2000).
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131.   Savas Berber, Young-Kyun Kwon, and David Tománek, Electronic and Structural Properties of Carbon Nanohorns, Phys. Rev. B 62, R2291 (2000).
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132.   David Tománek, Electrical and Thermal Transport in Carbon Nanotubes. In "Electronic Properties of Novel Materials - Molecular Nanostructures", Proceedings of the XIV International Winterschool in Kirchberg, Tyrol, March 2000, edited by Hans Kuzmany, Jörg Fink, Michael Mehring, and Siegmar Roth, pp. 338-343.
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133.   Petr Král, E. J. Mele, and David Tománek, Photogalvanic Effects in Heteropolar Nanotubes, Phys. Rev. Lett. 85, 1512 (2000).
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134.   A. M. Rao, J. Chen, E. Richter, P. C. Eklund, R. C. Haddon, U. D. Venkateswaran, Y.-K. Kwon, and D. Tománek, Effect of van der Waals interactions on the Raman modes in single walled carbon nanotubes, Phys. Rev. Lett. 86, 3895 (2001).
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135.   U. Kim, R. Pcionek, D.M. Aslam, and D. Tománek, Synthesis of high-density carbon nanotubes, Diamond and Related Materials 10, 1947 (2001).
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136.   David Tománek, Thermal and electrical conductance of carbon nanostructures. In "Nanostructured Carbon for Advanced Applications", Proceedings of the NATO Advanced Study Institute in Erice (Italy), July 2000, edited by G. Benedek, P. Milani, and V.G. Ralchenko.
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137.   Savas Berber, Young-Kyun Kwon, and David Tománek, Microscopic Formation Mechanism of Nanotube Peapods, Phys. Rev. Lett. 88, 185502 (2002).
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138.   J. Gerard Lavin, Shekhar Subramoney, Rodney S. Ruoff, Savas Berber and David Tománek, Scrolls and Nested Tubes in Multiwall Carbon Nanotubes, Carbon 40, 1123 (2002).
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139.   David Tománek, Mina Yoon, Jorge M. Pacheco, Gueorgui K. Gueorguiev, Steven W.D. Bailey, and Colin J. Lambert, Microscopic Switching of a Molecular Memory Device (submitted for publication).
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140.   Steven W.D. Bailey, David Tománek, Young-Kyun Kwon, and Colin J. Lambert, Giant magneto-conductance in twisted carbon nanotubes, Europhys. Lett. 59, 75 (2002).
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141.   Koichiro Umemoto, Susumu Saito, Savas Berber, and David Tománek, Carbon foam: Spanning the phase space between graphite and diamond, Phys. Rev. B 64, 193409 (2001).
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142.   Yoshiyuki Miyamoto, Susumu Saito, and David Tománek, Electronic inter-wall interactions and charge redistribution in multi-wall nanotubes, Phys. Rev. BR 65, 041402 (2002).
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143.   A. Hassanien, M. Tokumoto, and D. Tománek, Imaging the interlayer interactions of multiwall carbon nanotubes using scanning tunneling microscopy and spectroscopy, Appl. Phys. Lett. 79, 4210 (2001).
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144.   Petr Král, E.J. Mele, David Tománek, and Moshe Shapiro, Photo-Galvano-Mechanical Phenomena in Nanotubes. Proceedings of the XV International Winterschool in Kirchberg, Tyrol, March 2001, edited by Hans Kuzmany, Jörg Fink, Michael Mehring, and Siegmar Roth.
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145.   E.J. Mele, Petr Král, David Tománek, New Physics in Molecular Electronic and Molecular Optoelectronic Structures. Proceedings of the XV International Winterschool in Kirchberg, Tyrol, March 2001, edited by Hans Kuzmany, Jörg Fink, Michael Mehring, and Siegmar Roth.
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146.   A.V. Okotrub, V.V. Belavin, L.G. Bulusheva, V.A. Davydov, T.L. Makarova, D. Tománek, Electronic structure and properties of rhombohedrally polymerized C60, J. Chem. Phys. 115, 5637 (2001).
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147.   A.M. Rao, J. Chen, E. Richter, U. Schlecht, P.C. Eklund, R. C. Haddon, U. D. Venkateswaran, Y.-K. Kwon, and D. Tománek, Influence of Van Der Waals Interactions on the Raman Modes in Single Walled Carbon Nanotubes, Proceedings of the CARBON 2001 conference (submitted for publication).
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148.   Yoshiyuki Miyamoto, Savas Berber, Mina Yoon, Angel Rubio, and David Tománek, Onset of nanotube decay under extreme thermal and electronic excitations, Physica B 323, 78 (2002).
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149.   David Tománek, Mesoscopic origami with graphite: Scrolls, nanotubes, peapods, Physica B 323, 86 (2002).
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150.   David Tománek, Ballistic conductance in quantum devices: From organic polymers to nanotubes. Current Applied Physics 2, 47 (2002).
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151.   David Tománek, Koichiro Umemoto, Susumu Saito, and Savas Berber, Hierarchical Assembly of Nanostructured Carbon Foam, Mol. Cryst. Liquid Cryst. 386, 189 (2002).
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152.   David Tománek, Amazing Carbon. Introduction to Mitsubishi Journal of Science and Technology (2002).
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153.   Jin Choi, Yong-Hyun Kim, K. J. Chang, and David Tománek, Itinerant ferromagnetism in heterostructured C/BN nanotubes, Phys. Rev. B 67, 125421 (2003).
[[pdf file] pdf file] [ V. J. Nano. Sci. Techn.] [BIBTeX reference]

154.   Noejung Park, Mina Yoon, Savas Berber, Jisoon Ihm, Eiji Osawa, and David Tománek, Magnetism in all-carbon nanostructures with negative Gaussian curvature, Phys. Rev. Lett. 91, 237204 (2003).
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155.   A. Hassanien, A. Mrzel, M. Tokumoto, X. Zhao, Y. Ando, and D. Tománek, Scanning tunneling microscopy and spectroscopy of short multiwall carbon nanotubes, Mat. Res. Soc. Symp. Proc. Vol. 633, A14.28.1 (2001).
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156.   G. C. McIntosh, D.Tománek, and Y. W. Park, Energetics and Electronic Structure of a Polyacetylene Chain Contained in a Carbon Nanotube, Phys. Rev. B 67, 125419 (2003).
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157.   Mina Yoon, Seungwu Han, Gunn Kim, Sangbong Lee, Savas Berber, Eiji Osawa, Jisoon Ihm, Mauricio Terrones, Florian Banhart, Jean-Christophe Charlier, Nicole Grobert, Humberto Terrones, Pulickel M. Ajayan, David Tománek, The zipper mechanism of nanotube fusion: Theory and Experiment, Phys. Rev. Lett. 92, 075504 (2004).
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158.   G. C. McIntosh, D. Tománek, and Y. W. Park, Energetics and Bandstructure for a Polyacetylene Chain Enclosed inside a Carbon Nanotube, Synthetic Metals 135-136, 729 (2003).
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159.   Savas Berber and David Tománek, Stability differences and conversion mechanism between nanotubes and scrolls, Phys. Rev. B 69, 233404 (2004).
[[pdf file] pdf file] [ V. J. Nano. Sci. Techn.] [BIBTeX reference]

160.   Yong-Hyun Kim, Jin Choi, K. J. Chang, and David Tománek, Defective fullerenes and nanotubes as molecular magnets: An ab initio study, Phys. Rev. B 68, 125420 (2003).
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161.   Yoshiyuki Miyamoto, Savas Berber, Mina Yoon, Angel Rubio, David Tománek, Can Photo Excitations Heal Defects in Carbon Nanotubes? Chem. Phys. Lett. 392, 209 (2004).
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162.   Yoshiyuki Miyamoto, Angel Rubio, Savas Berber, Mina Yoon, David Tománek, Spectroscopic characterization of Stone-Wales Defects in Nanotubes, Phys. Rev. BR 69, 121413 (2004).
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163.   Savas Berber, Young-Kyun Kwon, and David Tománek, Bonding and Energy Dissipation in a Nanohook Assembly, Phys. Rev. Lett. 91, 165503 (2003).
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164.   Young-Kyun Kwon, Savas Berber, and David Tománek, Thermal Contraction of Carbon Fullerenes and Nanotubes, Phys. Rev. Lett. 92, 015901 (2004).
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165.   Seungwu Han, Mina Yoon, Savas Berber, Noah Park, Eiji Osawa, Jisoon Ihm, and David Tománek, Microscopic Mechanism of Fullerene Fusion, Phys. Rev. B 70, 113402 (2004).
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166.   Mina Yoon and David Tománek, Equilibrium Structure of Ferrofluid Aggregates, J. Phys.: Condens. Matter 22, 455105 (2010).
[[pdf file] pdf file] [Publisher's link to the manuscript] [BIBTeX reference]

167.   Yoshiyuki Miyamoto, Noboru Jinbo, Hisashi Nakamura, Angel Rubio, and David Tománek, Photodesorption of oxygen from carbon nanotubes, Phys. Rev. B 70, 233408 (2004).
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168.   G. K. Kostov, J. M. Pacheco, and David Tománek, Quantum Size Effects in the Polarizability of Carbon Fullerenes, Phys. Rev. Lett. 92, 215501 (2004).
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169.   Savas Berber, Eiji Osawa, and David Tománek, Rigid Crystalline Phases of Polymerized Fullerenes, Phys. Rev. B 70, 085417 (2004).
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170.   G. C. McIntosh, M. Yoon, S. Berber, and D. Tománek, Diamond Fragments as Building Blocks of Functional Nanostructures, Phys. Rev. B 70, 045401 (2004).
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171.   Computer-based carbon nanotechnology prophecy. David Tománek's column in Michigan SmallTech Journal, Vol. 1, p. 1, December 2003.
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172.   Mina Yoon, Savas Berber, and David Tománek, Energetics and Packing of Fullerenes in Nanotube Peapods, Phys. Rev. B 71, 155406 (2005).
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173.   Syogo Tejima, Noejung Park, Yoshiyuki Miyamoto, Kazuo Minami, Mikio Iizuka, Hisashi Nakamura, David Tománek, "Large Scale Simulations for Carbon Nanotubes", hpcasia, pp. 502-509, Seventh International Conference on High Performance Computing and Grid in Asia Pacific Region (HPCAsia'04), 2004.
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174.   Urszula Dettlaff-Weglikowska, Viera Skákalová, Ralf Graupner, Sung Ho Jhang, Byung Hoon Kim, Min-Gyu Kim, Lothar Ley, Yung Woo Park, Savas Berber, David Tománek, and Siegmar Roth, Effect of SOCl2 treatment on electrical and mechanical properties of single wall carbon nanotube networks, J. Am. Chem. Soc. 127, 5125 (2005).
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175.   Mina Yoon and David Tománek, Targeted medication delivery using magnetic nanostructures, J. Phys.: Condens. Matter 19, 086210 (2007).
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176.   David Tománek, Carbon-based nanotechnology on a supercomputer, Topical Review, J. Phys.: Condens. Matter 17, R413 (2005).
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177.   Young-Kyun Kwon, Savas Berber, and David Tománek, Reply to Comment on "Thermal Contraction of Carbon Fullerenes and Nanotubes", Phys. Rev. Lett. 94, 209702 (2005).
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178.   Norbert Nemec, David Tománek, and Gianaurelio Cuniberti, Contact Dependence of Carrier Injection in Carbon Nanotubes: An Ab Initio Study, Phys. Rev. Lett. 96, 076802 (2006).
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179.   Teng Yang, Shinya Okano, Savas Berber, and David Tománek, Interplay between structure and magnetism in Mo12S9I9 nanowires, Phys. Rev. Lett. 96, 125502 (2006).
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180.   Jens Ekengren, Johan Sjöholm, Daniel Östling, Arne Rosén, and David Tománek, A comparison of the electronic structure and optical plasmons in Csx, Csx shells and C60Csx clusters, (submitted for publication).
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181.   Savas Berber and David Tománek, Modeling the destruction of realistic nanotube emitters: Relative role of charging and temperature, Phys. Rev. B 77, 073407 (2008).
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182.   Glen P. Miller, Shinya Okano, and David Tománek, Toward uniform nanotubular compounds: Synthetic approach and ab initio calculations, J. Chem. Phys. 124, 121102 (2006).
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183.   Yoshiyuki Miyamoto, Angel Rubio, and David Tománek, Real-time ab initio simulations of excited carrier dynamics in carbon nanotubes, Phys. Rev. Lett. 97, 126104 (2006).
[[pdf file] pdf file] [ V. J. Nano. Sci. Techn.] [ V. J. Ultrafast Sci.] [BIBTeX reference]

184.   Albert G. Nasibulin, Peter V. Pikhitsa, Hua Jiang, David P. Brown, Arkady V. Krasheninnikov, Anton S. Anisimov, Paula Queipo, Anna Moisala, David Gonzalez, Günther Lientschnig, Abdou Hassanien, Sergey D. Shandakov, Giulio Lolli, Daniel E. Resasco, Mansoo Choi, David Tománek, and Esko I. Kauppinen, A novel hybrid carbon material, Nature Nanotech. 2, 156 (2007).
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185.   David Tománek, Computational Nanotechnology: From Clusters to Devices, AIP Conf. Proc. 777, 118 (2005).
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186.   Shinya Okano and David Tománek, Effect of electron and hole doping on the structure of C, Si, and S nanowires, Phys. Rev. B 75, 195409 (2007).
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187.   Arkady V. Krasheninnikov, Yoshiyuki Miyamoto, and David Tománek, Role of electronic excitations in ion collisions with carbon nanostructures, Phys. Rev. Lett. 99, 016104 (2007).
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188.   David Tománek, Preface and Introduction to Carbon Nanotubes: Advanced Topics in the Synthesis, Structure, Properties and Applications, A. Jorio, M.S. Dresselhaus, G. Dresselhaus, (Eds.), Topics in Applied Physics, Vol. 111, 2008, ISBN 978-3-540-72864-1 (Springer, Berlin, 2008).
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189.   Igor Popov, Teng Yang, Savas Berber, Gotthard Seifert, and David Tománek, Unique Structural and Transport Properties of Molybdenum Chalcohalide Nanowires, Phys. Rev. Lett. 99, 085503 (2007).
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190.   Michael Wimmer, Inanc Adagideli, Savas Berber, David Tománek, and Klaus Richter, Spin transport in rough graphene nanoribbons, Phys. Rev. Lett. 100, 177207 (2008).
[[pdf file] pdf file] [arxiv version] [Publisher's link] [BIBTeX reference]

191.   Norbert Nemec, David Tománek and Gianaurelio Cuniberti, Modeling extended contacts to nanotube and graphene devices, Phys. Rev. B 77, 125420 (2008).
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192.   Teng Yang, Savas Berber, Jun-Fu Liu, Glen P. Miller, and David Tománek, Self-assembly of long chain alkanes and their derivatives on graphite, J. Chem. Phys. 128, 124709 (2008).
[[pdf file] pdf file] [Publisher's link] [ V. J. Nano. Sci. Techn.] [BIBTeX reference]

193.   Glen P. Miller, Jeremy Kintigh, Eunja Kim, Philippe F. Weck, Savas Berber, and David Tománek, Hydrogenation of Single-Wall Carbon Nanotubes Using Polyamine Reagents: Combined Experimental and Theoretical Study, J. Am. Chem. Soc. 130, 2296 (2008).
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194.   Ramani K. Raman, Yoshie Murooka, Chong-Yu Ruan, Teng Yang, Savas Berber, and David Tománek, Direct Observation of Optically Induced Transient Structures in Graphite Using Ultrafast Electron Crystallography, Phys. Rev. Lett. 101, 077401 (2008).
[[pdf file] pdf file] [Publisher's link] [Phys. Rev. Focus article] [BIBTeX reference]

195.   Teng Yang, Savas Berber, and David Tománek, Compositional ordering and quantum transport in Mo6S9-xIx nanowires: Ab initio calculations, Phys. Rev. B 77, 165426 (2008).
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196.   Kiseok Chang, Savas Berber, and David Tománek, Transforming carbon nanotubes by silylation: An ab initio study, Phys. Rev. Lett. 100, 236102 (2008).
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197.   K. S. Nagapriya, Savas Berber, Tzahi Cohen-Karni, Lior Segev, Onit Srur-Lavi, David Tománek and Ernesto Joselevich, Diameter-dependent conductance oscillations in carbon nanotubes upon torsion, Phys. Rev. B 78, 165417 (2008).
[[pdf file] pdf file] [Publisher's link] [arXiv version] [ V. J. Nano. Sci. Techn.] [BIBTeX reference]

198.   Eunja Kim, Philippe F. Weck, Savas Berber, and David Tománek, Mechanism of fullerene hydrogenation by polyamines: Ab initio density functional calculations, Phys. Rev. B 78, 113404 (2008).
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199.   Bogdan Diaconescu, Teng Yang, Savas Berber, Mikael Jazdzyk, Glen P. Miller, David Tománek, and Karsten Pohl, Molecular self-assembly of functionalized fullerenes on a metal surface, Phys. Rev. Lett. 102, 056102 (2009).
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200.   Savas Berber and David Tománek, Hydrogen-induced exfoliation of fullerenes and nanotubes: An ab initio study, Phys. Rev. B 80, 075427 (2009).
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201.   Makoto Ashino, Roland Wiesendanger, Andrei N. Khlobystov, Savas Berber, and David Tománek, Revealing Sub-Surface Vibrational Modes by Atom-Resolved Damping Force Spectroscopy, Phys. Rev. Lett. 102, 195503 (2009).
[[pdf file] pdf file] [EPAPS material] [Publisher's link to manuscript] [Publisher's link to EPAPS material] [BIBTeX reference]

202.   Yoshiyuki Miyamoto, Hong Zhang, and David Tománek, Photo-exfoliation of graphene from graphite: An ab initio study, Phys. Rev. Lett. 104, 208302 (2010).
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203.   Sora Park, Kritsada Kittimanapun, Jeung-Sun Ahn, Young-Kyun Kwon and David Tománek, Designing rigid carbon foams, J. Phys.: Condens. Matter 22, 334220 (2010).
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204.   Philippe F. Weck, Eunja Kim, Kenneth R. Czerwinski, and David Tománek, Structural and Magnetic Properties of Tcn@C60 Endohedral Metalofullerenes: First-Principles Predictions, Phys. Rev. B 81, 125448 (2010).
[[pdf file] pdf file] [Publisher's link to the manuscript] [BIBTeX reference]

205.   Martial Duchamp, Richard Meunier, Rita Smajda, Marijana Mionic, Arnaud Magrez, Jin Won Seo, László Forró, Bo Song, and David Tománek, Reinforcing Multi-Wall Carbon Nanotubes by Electron Beam Irradiation, J. Appl. Phys. 108, 084314 (2010).
[[pdf file] pdf file] [EPAPS material] [Publisher's link to the manuscript] [ V. J. Nano. Sci. Techn.] [BIBTeX reference]

206.   Seoung-Hun Kang, Young-Kyun Kwon and David Tománek, Effect of bundling on the stability, equilibrium geometry and electronic structure of Mo6S9-xIx nanowires, Phys. Rev. B 82, 205427 (2010).
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207.   Seoung-Hun Kang, Young-Kyun Kwon and David Tománek, Interplay between structural and electronic properties of bundled Mo6S9-xIx nanowires, J. Phys.: Condens. Matter 22, 505301 (2010).
[[pdf file] pdf file] [Publisher's link to the manuscript] [BIBTeX reference]

208.   Ihsan Boustani, Zhen Zhu, and David Tománek, Search for the largest two-dimensional aggregates of boron: An ab initio study. Phys. Rev. B 83, 193405 (2011).
[[pdf file] pdf file] [Publisher's link to the manuscript] [BIBTeX reference]

209.   David Tománek, Calling to Be Your Best: Your Calling to Science. Invited "Opinion" contribution, Mater. Express 1, 86 (2011).
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210.   Kiseok Chang, Eunja Kim, Philippe F. Weck, and David Tománek, Nanoconfinement effects on the reversibility of hydrogen storage in ammonia borane: A first-principles study, J. Chem. Phys. 134, 214501 (2011).
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211.   David Tománek, Fame on Sale: Pitfalls of the Ranking Game. Invited "Opinion" contribution, Mater. Express 1, 355 (2011).
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212.   Toshihiko Fujimori, Koki Urita, David Tománek, Tomonori Ohba, Isamu Moriguchi, Morinobu Endo, and Katsumi Kaneko, Selective probe of the morphology and local vibrations at carbon nanoasperities, J. Chem. Phys. 136, 064505 (2012).
[[pdf file] pdf file] [EPAPS material] [Publisher's link to the manuscript] [BIBTeX reference]

213.   Igor Popov, Gotthard Seifert, and David Tománek, Designing Electrical Contacts to MoS2 Monolayers: A Computational Study, Phys. Rev. Lett. 108, 156802 (2012).
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214.   David Teich, Gotthard Seifert, Sumio Iijima, and David Tománek, Helicity in ropes of chiral nanotubes: calculations and observation, Phys. Rev. Lett. 108, 235501 (2012).
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215.   Zhen Zhu and David Tománek, Formation and Stability of Cellular Carbon Foam Structures: An Ab Initio Study, Phys. Rev. Lett. 109, 135501 (2012).
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216.   Jinying Zhang, Yanquan Feng, Hitoshi Ishiwata, Yasumitsu Miyata, Ryo Kitaura, Jeremy E. P. Dahl, Robert M. K. Carlson, Hisanori Shinohara, and David Tománek, Synthesis and Transformation of Linear Adamantane Assemblies inside Carbon Nanotubes, ACS Nano 6, 8674 (2012).
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217.   Zacharias G. Fthenakis and David Tománek, Computational study of the thermal conductivity in defective carbon nanostructures, Phys. Rev. B 86, 125418 (2012).
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218.   David Teich, Zacharias G. Fthenakis, Gotthard Seifert, and David Tománek, Nanomechanical energy storage in twisted nanotube ropes, Phys. Rev. Lett. 109, 255501 (2012).
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219.   Jinying Zhang, Zhen Zhu, Yanquan Feng, Hitoshi Ishiwata, Yasumitsu Miyata, Ryo Kitaura, Jeremy E. P. Dahl, Robert M. K. Carlson, Natalie A. Fokina, Peter R. Schreiner, David Tománek, and Hisanori Shinohara, Evidence of diamond nanowires formed inside carbon nanotubes from diamantane dicarboxylic acid, Angewandte Chemie (2013).
[[pdf file] pdf file] [Supplementary material] [Publisher's link to the manuscript] [BIBTeX reference]

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