Title - Computational Nanotechnology Publications
1. T. Yamada, "Atomic Wires and Their Electronic Properties", Journal of Vacuum Science and Technology B, Vol. 15, pp. 1019-1026 (1997).
2. J. Han, A. Globus, R. Jaffe and Glenn Deardorff, "Molecular Dynamics Simulation of Carbon NanotubeBased Gears", Nanotechnology, Vol. 8, pp. 95-102 (1997).
3. D. Srivastava,"A Phenomenological Model of the Rotation Dynamics of Carbon Nanotube Gears with Laser Electric Fields", Nanotechnology, Vol. 8, pp. 186-192 (1997).
4. M. Menon and D. Srivastava,"Carbon Nanotube "T- junctions": Nanoscale Metal-Semiconductor-Metal Contact Devices", Physical Review Letters, Vol. 79, pp. 4453-4456 (1997).
5. T. Halicioglu, "Properties of Diamond and Diamond-Like Clusters in Nanometric Dimensions", Phys. Stat. Sol. (B),Vol. 199, pp. 345-350 (1997).
6. C. W. Bauschlicher, "Displacement Energies for Nanorods", Chemical Physics Letters Vol. 273, 195 (1997).
7. C.W. Bauschlicher, A. Ricca, and R. Merkle, "Chemical Storage of Data", Nanotechnology, Vol. 8, pp. 1-5 (1997).
8. J. Han and R. Jaffe, "Energetics and Geometries of Carbon Nanoconic Tips", Journal of Chemical Physics, Vol. 108, pp. 2817-2833 (1998).
9. J. Han, "Energetics and Structures of Fullerene Crop Circles", Chemical Physics Letters, Vol. 282, pp. 187-191 (1998).
10. J. Han, M.P. Anantram, R. Jaffe, J. Kong, and H. Dai, "Observation and Modeling of Single Wall Carbon Nanotube Bend Junctions", Physical Review B., Vol. 57(20), pp. 1-7 (1998).
11. T. Halicioglu, "Stress Calculations for Carbon Nanotubes",Thin Solid Films, Vol. 312, pp. 11-14 (1998).
12. C. W. Bauschlicher and M. Rosi, "Differentiating Between Hydrogen and Fluorine on a Diamond Surface", Theoretical Chemical Accounts, Vol. 96, pp. 213-216 (1997).
13. C.W. Bauschlicher and M. Rosi, "Differentiating Between H or F and CN on C (111) of Si (111) Surfaces", Journal of Physical Chemistry B, Vol. 102, pp. 2403-2405 (1998).
14. F.N. Dzegilenko, D. Srivastava, and S. Saini," Simulations of Carbon Nanotube Tip Assisted Mechano-chemical Reactions on Diamond Surface", Nanotechnology, Vol. 9,pp. 325-330 (1998).
15. H. Dai, N. Franklin, and J. Han, "Exploiting the Propertiesof Carbon Nanotubes for Nanolithography", Applied Physics Letters, Vol. 73 (11), pp. 1508-1510 (1998).
16. T. Yamada, "Doping scheme of semiconducting atomic chains", Journal of Vacuum Science and Technology A,Vol. 16 (3), pp. 1403-1408 (1998).
17. M.P. Anantram, J. Han, and T.R. Govindan, "Transport in (10, 10) Carbon Nanotubes with Defects", Annals of theNew York Academy of Sciences, Vol. 852, pp. 169-177(1998).
18. A. Globus, C. Bauschlicher, J. Han, R. Jaffe, C. Levit and D. Srivastava, "Machine Phase Fullerene Nanotechnology", Nanotechnology, Vol. 9, pp. 1-8 (1998).
19. J. Lu and J. Han, "Carbon Nanotubes and Nanotube Based Nanodevices", a chapter in the book Quantum-Based Electronic Devices and Systems, edited by P.K. Tien et al. (World Scientific, 1998).
20. M. Menon and D. Srivastava, "Carbon Based Molecular Electronics Devices", Journal of Material Research,Vol. 13, pp. 2357-2362 (1998).
21. M. Menon, D. Srivastava and S. Saini, "Fullerene Derived Molecular Electronic Devices", Semiconductor Science and Technology, Vol. 13, A51 (1998).
22. A. Garg, J. Han, and S.B. Sinnott, "Interactions of Carbon Nanotube Proximal Tips with Diamond and Graphene",Physical Review Letters, Vol. 81 (11), pp. 2260-2263 (1998).
23. S.P. Walch and R.C. Merkle, "Theoretical Studies of Diamond Mechanosynthesis Reactions", Nanotechnology, Vol. 9, pp. 285-296 (1998).
24. M.P. Anantram and T.R. Govindan, "Conductance of Carbon Nanotubes with Disorder: A Numerical Study", Physical Review B, Vol. 58 (8), pp. 4882-4887 (1998).
25. A. Globus, D. Bailey, J. Han, R. Jaffe, C. Levit, R. Merkle and D. Srivastava, "Aerospace applications of molecular nanotechnology", Journal of the British Interplanetary Society, Vol. 51, pp. 145-152 (1998).
26. M. Meyyappan and J. Han, "Buckytubes in a Nanoworld", Prototyping Technology International, pp. 14-19, December (1998).
27. A. Ricca, C.W. Bauschlicher, J.K. Kang, and C.B. Musgrave, "Hydrogen Abstractions from a Diamond (111) Surface in a Uniform Electric Field", Surface Science, Vol. 429, pp. 199-205 (1999).
28. T. Yamada, "Substrate Effects on Electronic Propertiesof Atomic Chains", Journal of Vacuum Science and Technology A, Vol. 17 (4), pp. 1463-1468 (1999).
29. T. Yamada, C.W. Bauschlicher, and H. Partridge,"Substrate for Atomic Chain Electronics", Physical Review B, Vol. 59, 23, pp. 15430-15436, June (1999).
30. M. Menon and D. Srivastava, "Structures of Boron Nitride Nanotubes: Tube Closing vs. Chirality", Chemical Physics Letters, Vol. 307, pp. 407-412 (1999).
31. L. Yang, M. Anantram, J. Han, and J.P. Lu, "Band-gap Change of Carbon Nanotubes: Effect of Small Uniaxialand Torsional Strain", Physical Review B, Vol. 60(19),pp. 13874-13878 (1999).
32. F. Dzegilenko, D. Srivastava, and S. Saini, "Nanoscale Etchingand Indentation of Silicon (111) Surface with Carbon NanotubeTips", Nanotechnology, Vol. 10, pp. 253-257 (1999).
33. D. Srivastava, D.W. Brenner, J.D. Schall, K.D. Ausmann, M. Yu, and R.S. Ruoff, "Predictions of Enhanced Chemical Reactivity at Regions of Local Conformation Strain on Carbon Nanotubes: Kinky Chemistry", Journal of Physical Chemistry B, Vol. 103, 21, pp. 4330-4337 (1999).
34. D. Srivastava, M. Menon and K. Cho, "Nano-plasticity of Single-wall Carbon Nanotubes Under Uniaxial Compression "Physical Review Letters, Vol. 83 (15), pp. 2973-2976 (1999).
35. D. Srivastava, F. Dzegilenko, S. Barnard, S. Saini, M. Menonand S. Weeratunga, "Carbon Nanotube based Nanotechnology in an Integrated Modeling and Simulation Environment", Handbook of Nanostructured Materials and Nanotechnology, Vol. 2, Ed. H.S. Nalwa, Chapter 14, 665, Academic Press (1999).
36. C.W. Bauschlicher, "Hydrogen and fluorine binding to the sidewalls of a (10,0) carbon nanotube", Chemical Physics Letters, 322, pp. 237-241 (2000).
37. T. Yamada, "Analysis of Submicron Carbon Nanotube Field Effect Transistors," Applied Physics Letters, Vol. 76 (5), pp. 628-630 (2000).
38. M.P. Anantram, S. Datta, and Y. Xue, "Coupling of Carbon Nanotubes to Metallic Contacts", Physical Review B, Vol. 61 (20), pp. 14219-14224, May 2000.
39. M.P. Anantram, and T.R. Govindan, "Transmission Through Carbon Nanotubes with Polyhedral Caps", Physical Review B,Vol. 61 (7), pp. 5020-5025, February 2000.
40. M.P. Anantram and T.R. Govindan, "Single Particle Transport Through Carbon Nanotube Wires: Effect of Defects and Polyhedral Cap", Science and Application of Nanotubes, pp. 137-149, 2000.
41. M. Meyyappan and D. Srivastava, "Carbon Nanotube: A Revolution in Nanotechnology", IEEE Potentials, Vol. 19 (3), pp. 16-18 (Aug/Sep. 2000).
42. S. Park, D. Srivastava and K. Cho, "Local Reactivity of Fullerenes and Applications to a Nano Device Design", Nanotechnology, Vol. 12, p. 245 (2001).
43. L. Yang and J. Han, "Electronic Structure of Deformed Carbon Nanotubes", Physics Review Letters, Vol. 85 (1), pp. 154-157 (2000).
44. J. Zhao, A. Buldum, J. Han, and J.-P. Lu, "First Principles Study of Li-Intercalated Carbon Nanotube Ropes, Physics Review Letters, 85, 1706 (2000).
45. A. Andriotis, M. Menon, D. Srivastava and G. Froudakis, "Extreme Hydrogen Sensitivity of the Transport Properties of Single-Wall Carbon Nanotubes", Phys. Rev., Vol. B64, p. 193401 (2001).
46. T. Yamada, "Modeling of Electronic Transport in Scanning Tunneling Microscope Tip - Carbon Nanotube Systems", Applied Physics Letters, Vol. 78 (12), pp. 1739-1741 (2001).
47. D. Srivastava, M. Menon and K. Cho, "Anisotropic Nanomechanics of Boron Nitride Nanotubes: Nanostructured 'Skin' Effect", Physics Review B, Vol. 63, p. 195413 (2001).
48. M. A. Osman and D. Srivastava, "Temperature Dependence of the Thermal Conductivity of Single-Wall Carbon Nanotubes", Nanotechnology, Vol. 12 (1), pp. 21-24 (2001).
49. N. Mingo, L. Yang, J. Han, and M.P. Anantram, "Resonant Tunneling Through Carbon Nanotube A-B-A Heterostructures", Physica Status Solidi, Vol. 226, pp. 79-85 (2001).
50. C.W. Bauschlicher and C.R. So, ``Using hydrogen and chlorine on Si(111) to store data",Chemical Physics Letters, Vol. 333, pp. 1-5 (2001).
51. S. Park, D. Srivastava and K. Cho, "Endo-fullerene and Doped Diamond Nanocrystallite based Models of Qubits for Solid-State Quantum Computers," J. Nanoscience and Nanotechnology, Vol. 1 (1), pp. 75-81 (2001).
52. A. Andriotis, M. Menon, D. Srivastava, and L. Chernozatonskii, "Rectification properties of carbon nanotube ``Y-junctions'', Physical Review Letters, Vol. 87 (6), pp. 066802 (2001).
53. C. Wei, D. Srivastava and K. Cho, "Molecular Dynamics Simulations of the Temperature Dependent Plastic Collapse of Carbon Nanotube under Axial Compression," Comp. Modeling in Engineering and Sciences, Vol. 3, p. 255 (2002).
54. D. Srivastava, M. Menon and K. Cho, "Computational Nanotechnology with Carbon Nanotubes and Fullerenes," IEEE Journal on Computing Science and Engineering, pp. 42-55, July/August (2001).
55. M.P. Anantram, "Which Nanowire Couples Better Electrically to a Metal Contact: Armchair or Zigzag Nanotube/", Applied Physics Letters, Vol. 78, pp. 2055-2057 (2001).
56. C. Bauschlicher, "High Coverages of Hydrogen on a (10, 0) Carbon Nanotube", Nano Letters, Vol. 1, 5, p. 223 (2001).
57. N. Mingo, L. Yang, J. Han, and M.P. Anantram, "Resonant versus Anti-Resonant Tunneling at Carbon Nanotube A-B-A Heterostructures", Phys. Stat. Sol. (B), Vol. 226 (1), pp. 19-85 (2001).
58. A. Andriotis, M. Menon, D. Srivastava, and L. Chernozatonskii, "Ballistic Switching and Rectification in Single Wall Carbon Nanotube Y Junctions", Applied Physics Letters, Vol. 79 (2), pp. 266-268 (2001).
59. N. Mingo, L. Yang, and J. Han, "Current-Induced Forces upon Atoms Adsorbed on Conducting Carbon Nanotubes", Journal of Physical Chemistry B, Vol. 105, pp. 11142-11147 (2001).
60. N. Mingo and J. Han, "Conductance of Metallic Carbon Nanotubes Dipped into Metal", Physical Review B, Vol. 64, pp. 201401.1-201401.4 (2001).
61. M. Rosi, and C.W. Bauschlicher, "Using Hydrogen and Chlorine on Si (111) to Store Data, an Improved Model", Chemical Physics Letters, Vol. 347, pp. 291-296 (2001).
62. A. Ricca and C.W. Bauschlicher, "A Correlation Consistent Basis Set for Fe", Theor. Chem. Acc., Vol. 106, p. 314 (2001).
63. A. Ricca, "Heats of Formation for Fe (Co)n (n = 1-4)", Chemical Physics Letters, Vol. 350, p. 313 (2001).
64. K. Makoshi, N. Mingo, T. Mii, H. Ueba, S. Tikhodeev, "Theory of Inelastic Scanning Tunneling Spectroscopy," Surf. Sci., Vol. 496, p. 71 (2001).
65. T. Yamada, "Modeling of Kink-Shaped Carbon-Nanotube Schottky Diode with Gate Bias Modulation," Applied Physics Letters, Vol. 80 (21), pp.4027-4029 (2002).
66. A. Ricca and C.W. Bauschlicher, Jr., "Theoretical Study of the Interaction of Water and Imidazole with Iron and Nickel Dications", Journal of Physical Chemistry A., Vol. 106, pp. 3219-3223 (2002).
67. A. Maiti, A. Svezhenko, and M.P. Anantram, "Electronic Transport Through Carbon Nanotubes: Effects of Structural Deformation and Tube Chirality", Physical Review Letters, Vol. 88 (12), pp. 12680501-12680504 (2002).
68. C. Wei, D. Srivastava, and K. Cho, "Thermal Expansion and Diffusion Coefficients of Carbon Nanotube-Polymer Composites", Nano Letters, Vol. 2 (6), pp. 647-650 (2002).
69. J. O'Keeffe, C. Wei, and K. Cho, "Bandstructure Modulation for Carbon Nanotubes in a Uniform Electric Field", Applied Physics Letters, Vol. 80 (4), pp. 676-678 (2002).
70. C.W. Bauschlicher and C.R. So, "High Coverages of Hydrogen on (10, 0), (9,0) and (5, 5) Carbon Nanotubes", Nano Letters, Vol. 2 (4), pp. 337-341 (2002).
71. C.E. Dateo, T. Gokcen, and M. Meyyappan, "Modeling of the HiPCo Process for Carbon Nanotube Production: I. Chemical Kinetics", Journal of Nanoscience and Nanotechnology (2002).
72. T. Gokcen, C.E. Dateo, and M. Meyyappan, "Modeling of the HiPCo Process for Carbon Nanotube Production: II Reactor Scale Analysis", Journal of Nanoscience and Nanotechnology (2002).
73. A. Ricca and J.A. Drocco, "Interaction of O2 with a (9,0) Carbon Nanotube", Chemical Physics Letters, Vol. 362, pp. 217-233 (2002).
74. C.W. Bauschlicher and A. Ricca, "Modelling of Benzene - 1, 4 - Dithiol on a Au (111) Surface",Chemical Physics Letters, Vol. 367, pp. 90-94 (2003).
75. A. Ricca and C.W. Bauschlicher, "Ab Initio Study of Eu3+-L (L = H2O, H2S, NH2CH3, S (CH3)2, Imidazole) Complexes", Chemical Physics Letters, Vol. 366, pp. 623-627 (2002).
76. H. Okamoto, D. M. Chen, and T. Yamada, "Competing Classical and Quantum Effects in Shape Relaxation of a Metallic Island," Physical Review Letters, Vol. 89 (25), pp. 256101 (2002).
77. H. Okamoto, D. Chen and T. Yamada, "Competing Classical and Quantum Effects in Shape Relaxation of a Metallic Island," Phys. Rev. Lett, Vol. 89, 25, pp. 256101 (2002).
78. K. Makoshi and N. Mingo, "Theory of inelastic scanning tunneling spectroscopy," Surf. Sci., Vol. 34, pp. 502-503 (2002).
79. A. Globus, M. Menon and D. Srivastava, "Java Genes: Evolving Molecular Force Field Parameters with Genetic Algorithm," Comp. Modeling in Eng. and Sci., Vol. 3, p. 557 (2002).
80. D. Srivastava and S. N. Atluri, "Computational Nanotechnology: A Current Perspective," Comp. Modeling in Eng. and Sci., Vol. 3, p. 531 (2002).
81. A. Andriotis, M. Menon and D. Srivastava, "Transfer Matrix Approach to Quantum Conductivity of Single-Wall Carbon Nanotubes," J. Chem. Phys., Vol. 117, p. 2836 (2002).
82. D. Hash, D. Bose, T.R. Govindan, and M. Meyyappan, "Simulation of the dc Plasma in Carbon Nanotube Growth", Journal of Applied Physics, Vol. 93, 10, pp. 6284-6290 (2003).
83. D. Srivastava and C. Wei, "Nanomechanics of Carbon Nanotubes and Composites," App. Mech. Rev., Vol. 56, 2, pp. 215-230 (2003).
84. C. Wei, K. Cho, and D. Srivastava, "Tensile Strength of Carbon Nanotubes Undr Realistic Temperature and Strain Rate," Phys. Rev. B, Vol. 67, pp. 115407-1 - 115407-6 (2003).
85. C. Wei, K. Cho, and D. Srivastava, "Tensile Yielding or Multiwall Carbon Nanotubes," App. Phys. Lett., Vol. 82, 15, pp. 2512-2514 (2003).
86. C.W. Bauschlicher, A. Ricca, N. Mingo, and J. Lawson, "On the Current Flow for Benzene- 1,4 - Dithiol Between Two Au Contacts," Chem. Phys. Lett., Vol. 372, pp. 723-727 (2003).
87. A. Ricca and C.W. Baushlicher, "Interaction of a Conjugated Phenylene Ethynylene Trimer with a Au (111) Surface", Chem. Phys. Lett., Vol. 372, pp. 873-877 (2003).
88. S. Walch, "The Bonding of N2 to Models of (9,0) Carbon Nanotube and Graphite," Chem. Phys. Lett., Vol. 373, pp. 422-425 (2003).
89. Ch. Adessi, S. Walch, and M.P. Anantram, "Environment and Structure Influence on DNA Conduction," Phys. Rev. B., Vol. 67, p. 081405-1 (2003).
90. S. Walch, "On the Reaction of N and O Atoms with Carbon Nanotubes," Chem. Phys. Lett., Vol. 374 (5-6), pp. 501-505 (2003).
91. S. Walch, "Model Calculations of the Electron Affinities and Ionization Potentials of DNA," Chem. Phys. Lett., Vol. 374 (5-6), pp. 496-500 (2003).
92. M. Meyyappan and D. Srivastava, "Carbon Nanotubes," chapter 18, pg 18-1, Handbook of Nanoscience, Engineering and Technology, Editors: Goddard, Brenner, Lyshevski, Iafrate, CRC Press (Boca Raton, Fl 2003).
93. C.W. Bauschlicher and A. Ricca, "Conductivity at Low Temperatures, Are the Rings Eclipsed or Perpendicular?", Chem. Phys. Lett., Vol. 369, pp. 415-418 (2003).
94. C.W. Bauschlicher and A. Ricca, "Do Individual Molecule Rotational Barriers Explain the Rentention Times of Molecular Memories?", Chem. Phys. Lett., Vol. 375, pp. 459-462 (2003).
95. A. Ricca and C.W. Bauschlicher, "Comparison of the Reactivity of O2 with a (10, 0) and a (9, 0) Carbon Nanotube," Phys. Rev. B, Vol. 68, p. 035433 (2003).
96. A.V. Maslov, and C.Z. Ning, "Reflection of Guided Modes in a Semiconductor Nanowire Laser," Appl. Phys. Lett., Vol. 83, 6, p. 1237 (2003).
97. N. Mingo, "Calculation of Si Nanowire Thermal Conductivity Using Complete Phonon Dispersion Relations," Phys. Rev. B, Vol. 68, p. 113308-1 (2003).
98. A. Svizhenko and M.P. Anantram, "Role of Scattering in Nanotransistors," IEEE Transactions on Electron Devices, Vol. 50, 6, p.1459 (2003).
99. M.P. Samanta and S. Liang, "Predicting Protein Functions from Redundancies in Large-Scale Protein Interaction Networks," PNAS, Vol. 100, 22, pp. 12579-12583 (2003).
100. T. Yamada, "Modeling of Carbon Nanotube Schottky Barrier Modulation under Oxidizing Conditions," Phys. Rev. B, Vol. 69(12), pp.125408-1-125408-8 (2004).
101. N. Mingo, "Thermoelectric Figure of Merit and Maximum Power Factor in III-V Semiconductor Nanowires," Appl. Phys. Lett., Vol. 84, 14, p. 2652 (2004).
102. Thermal Conductivities of Individual Tin Dioxide Nanobelts, "Appl. Phys. Lett., Vol. 84, 14, p. 2638 (2004).
103. I.B. Altfeder, X. Liang, T. Yamada, D.M. Chen, and V. Narayanamurti, "Anistropic Metal-Insulator Transition in Epitaxial Thin Films," Phys. Rev. Lett., Vol. 92, 22, p. 226404 (2004).
104. C.W. Bauschlicher, A. Ricca, Y. Xue, and M. Ratner, "Current-voltage Curves for Molecular Junctions: Pyrene vs. Diphenylacetylene," Chem. Phys. Lett., Vol. 390, pp. 246-249 (2004).
105. C.W. Bauschlicher, J.W. Lawson, A. Ricca, Y. Xue, and M.A. Ratner, "Current-voltage Curves for Molecular Junctions: the Effect of Cl Substituents and Basis Set Composition," Chem. Phys. Lett., Vol. 388, pp. 427-429 (2004).
106. A. Maiti and A. Ricca, "Metal-Nanotube Interactions - Binding Energies and Wetting Properties," Chem. Phys. Lett., Vol. 395, pp. 7-11 (2004).
107. C.W. Bauschlicher and A. Ricca, "Binding of NH3 to Graphite and to a (9,0) Carbon Nanotube," Phys. Rev. B, Vol. 70, p. 115409 (2004).
108. M. Cinke, J. Li, C.W. Bauschlicher, A. Ricca, and M. Meyyappan, "CO2 Adsorption in Single-Walled Carbon Nanotubes," Chem. Phys. Lett., Vol. 376, pp. 761-766 (2003).
109. G.L. Gutsev and C.W. Bauschlicher, "Oxidation of Carbon Monoxide on Small Iron Clusters," Chem. Phys. Lett., Vol 380, pp. 435-443 (2003).
110. G.L. Gutsev and C.W. Bauschlicher, "Structural and Electronic Properties of Iron Monoxide Clusters FenO and FenO- (n = 2-6): A Combined Photoelectron Spectroscopy and Density Functional Theory Study," J. of Chem. Phys., Vol. 119, 21, p. 11135 (2003).
111. G.L. Gutsev and C.W. Bauschlicher, "Structure of Neutral and Charged FenCO Clusters (n = 1-6) and Energetics of the FenCO+CO --> FenCO2 Reaction," J. Chem. Phys., Vol. 119, 7, p. 3681 (2003).
112. C.Z. Ning, "Two-Photon Lasers Based on Intersubband Transitions in Semiconductor Nanostructures," in press.
113. J. Li and C.Z. Ning, "Effects of Electron-Electron and Electron-Phonon Scatterings on the Linewidths of Intersubband Transitions in a Quantum Well," Phys. Rev. B, Vol. 70, p. 125309 (2004).
114. J. Li and C.Z. Ning, "Induced Transparency by Intersubband Plasmon Coupling in a Quantum Well," Phys. Rev. Lett., Vol. 93, 8, p. 087402-1 (2004).
115. A.V. Maslov and C.Z. Ning, "Modal Gain in a Semiconductor Nanowire Laser with Anisotropic Bandstructure," IEEE J. of Quantum Electronics, Vol. 40, 10, p. 1389 (2004).
116. N. Mingo and D.A. Broido, "Lattice Thermal Conductivity Crossovers in Semiconductor Nanowires," Phys. Rev. Lett., Vol. 93, p. 246106 (2004).
117. N. Mingo, "Thermoelectric Figure of Merit of II-VI Semiconductor Nanowires," Appl. Phys. Lett., Vol. 85, 24, pp. 5986-5988 (2004).
118. N. Mingo and D.A. Broido, "Length Dependence of Carbon Nanotube Thermal Conductivity and the 'Problem of Long Waves'", Nano Letters, Vol. 5, 7, pp. 1221-1225 (2005).
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