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Annual Report 2006: Publications List

Books, Chapters, Editorials:

  1. M.W. Barsoum, “Physical Properties of the MAX Phases”, Encyclopedia of Materials Science & Technology, Eds. Buschow, Cahn, Flemings, Kramer, Mahajan and Veyssiere, Elsevier Science, (2006).
  2. M.W. Barsoum, “Nanolayered Kinking Nonlinear Elastic Solids”, Handbook of Nano-materials, Ed. Y. Gogotsi, CRC Press, (2005).
  3. Y. Gogotsi (Ed.), Nanomaterials Handbook, CRC Press, Boca Raton (2006).
  4. Y. Gogotsi (Ed.), Nanotubes and Nanofibers, CRC Press, Boca Raton (2006).
  5. Y. Gogotsi (Ed.), Carbon Nanomaterials, CRC Press, Boca Raton (2006).
  6. K.G. Ewsuk, Y. Gogotsi (Eds.), Characterization, Design, and Processing of Nanosize Powders, and Nanostructured Materials. Ceramic Transactions, 190, American Ceramic Society (2006).
  7. F.K. Ko, H. Lam, N. Titchenal, H. Ye, Y. Gogotsi, “Coelectrospinning of Carbon Nanotube Reinforced Nanocomposite Fibrils,” Polymeric Nanofibers, Ed. D. H. Reneker and H. Fong, American Chemical Society Symposium Series 918, Washington, DC, (2006).
  8. F.K. Ko, A. Aufy, H. Lam, A. MacDiarmid, “Electrostatically Generated Nanofibers for Wearable Electronics”, Wearable Electronics, Ed. X.M. Tao, Woodhead (2005).
  9. F.K. Ko, “Fabrics,” Encyclopedia of Biomaterials and Biomedical Engineering, Eds. G. Wnek, G. Bowlin, M. Dekker (2005).
  10. F.K. Ko, “Nanofiber Technology,” Nanomaterials Handbook, Chapter 17, ed. Y. Gogotsi, CRC press: 553-564 (2006).
  11. F.K. Ko, G. Palmese, Y. Gogotsi, A. Wang, “Proceedings of the American Society For Composites—Twentieth Technical Conference,” (2005).
  12. M. Marcolongo, P. Kambin, A. Lowman, A. Karduna. “Experience with minimally invasive nucleus replacement,” Arthoscopic and Endoscopic Spinal Surgery. Ed. P. Kambin, Humana Press (2005).
  13. M. Marcolongo, A. Joshi, “Spinal Implants,” Encyclopedia of Medical Devices and Instrumentation, Wiley, 6, 229-240 (2006).
  14. M. Marcolongo, M. Cannella, C. Massey, “Nucleus Replacement of the Intervertebral Disc” Spine Technology Handbook, Ed. S. Kurtz (2006).
  15. W.Y. Shih and W.–H. Shih, “Nanosensors for Environmental Applications,” Series on Nanotechnology for Life Sciences, 5: Impact of Nanomaterials on Environment, Ed. C. Kumar, Wiley-VCH (2006).
  16. T.S. Venkataraman, D.H.Thomas, Engineering Applications and Resource Textbook for Physical Foundations of Engineering I, II and III; Revised and modified 7th Edition, John Wiley and Sons (2005).

Refereed Journal Publications:

  1. S. Basu, A. Moseson and M.W. Barsoum, “On the Determination of Spherical Nanoindentation Stress-Strain Curves”, J. Mater. Res., 21, 2628-2637 (2006).
  2. Z.-M. Sun, and M.W. Barsoum, “Alternate Mechanism for the Spontaneous Formation of Freestanding Ga Nanoribbons on Cr2GaC Surfaces”, J. Mater. Res., 21, 1629-1631 (2006).
  3. M. Fraczkiewicz, A.G. Zhou and M.W. Barsoum, “Mechanical Damping in Porous Ti3SiC2”, Acta Mater., 54, 5261-5270 (2006).
  4. S. Basu, M.W. Barsoum and S.R. Kalidindi, “Sapphire: A Kinking Nonlinear Elastic Solid”, J. Appl. Phys., 99, 063501 (2006).
  5. M. Radovic, M.W. Barsoum, A. Ganguly, T. Zhen, P. Finkel, S.R. Kalidindi and E. Lara-Curzio, “On the Elastic Properties and Mechanical Damping of Ti3SiC2, Ti3GeC2, Ti3Si0.5Al0.5C2 and Ti2AlC in the 300-1573 K Temperature Range”, Acta Mater., 54, 2757-2767 (2006).
  6. M.K. Drulis, H. Drulis, S. Gupta, T. El-Raghy and M.W. Barsoum, “On the Heat Capacities of M2AlC (M = Ti, V, Cr) Ternary Carbides”, J. Appl. Phys., 99, 093502 (2006).
  7. S. Gupta, A. Ganguly, D. Filimonov and M.W. Barsoum, “Oxidation of Ti3GeC2 and Ti3Ge0.5Si0.5C2 in Air”, J. Electrochem. Soc., 153, (7) J61-J68 (2006).
  8. S.R. Kalidindi, T. Zhen and M.W. Barsoum, “Macroscale Constitutive Modeling of Kinking Nonlinear Elastic Solids”, Mater. Sci. Engin. A 418, 95-98 (2006).
  9. Z.-M. Sun, T. Zhen and M.W. Barsoum, “Creep Rupture Induced Silica-Based Nanofibers Formed on Fracture Surfaces of Ti3SiC2”, J. Mater. Res., 20, 2895-2897 (2005).
  10. B. Manoun, S. K. Saxena, T. El-Raghy and M.W. Barsoum, “X-ray High-Pressure Study of Ti2AlN and Ti2AlC”, J. Phys. Chem. Solids, 67, 2091-2094 (2006).
  11. B. Manoun, R.P. Gulve, S. K. Saxena, S. Gupta, M.W. Barsoum and C. S. Zha, “Compressibility of M2AlC (M = Ti, Cr, Nb & V) Phases”, Phys. Rev. B, 73, 24110 (2006).
  12. H. Yang, B. Manoun, R.T. Downs, A. Ganguly and M.W. Barsoum, “Crystal Chemistry of the Ternary Layered Carbide, Ti3(Si0.43,Ge0.57)C2”, J. Phys. Chem. Solids, 2006.
  13. J.D. Hettinger, S.E. Lofland, P. Finkel, T. Meehan, J. Palma, K. Harrell, S. Gupta, A. Ganguly, T. El-Raghy and M.W. Barsoum, “Elastic, Electrical and Thermal Properties of M2AlC (M = Ti, Cr, Nb and V) Phases”, Phys. Rev. B, 115120, (2005).
  14. B. Manoun, S.K. Saxena, H.-P. Liermann and M.W. Barsoum, “Thermal Expansion of Polycrystalline Ti3SiC2 in the 25–1400 °C Temperature Range”, J. Amer. Cer. Soc., 88, 3489-3491 (2005).
  15. T. Zhen, M.W. Barsoum, S.R. Kalidindi, M. Radovic, Z.-M. Sun and T. El-Raghy, “Compressive Creep of Fine and Coarse-Grained Ti3SiC2 in Air in the 1100 to 1300 °C Temperature Range in Air”, Acta Mater., 53, 4963-4973 (2005).
  16. B. Manoun, S. K. Saxena, T. El-Raghy and M.W. Barsoum, “High-Pressure X-ray Diffraction Study of Ta4AlC3”, Appl. Phys. Letts., 201902 (2006).
  17. G. Yushin, E. N. Hoffman, M.W. Barsoum, Y. Gogotsi, C.A. Howell, S.R. Sandeman, G.J. Phillips, A.W. Lloyd and S.V. Mikhalovsky, “Mesoporous Carbide-Derived Carbon with Porosity Tuned for Efficient Adsorption of Cytokines”, Biomaterials, 27, 5755-5762 (2006).
  18. V. Jovic, M.W. Barsoum, B. Jovic, A. Ganguly and T. El-Raghy, “Corrosion Behavior of Ti3GeC2 and Ti2AlN in 1 M NaOH”, J. Electrochem. Soc., 153, B238-B243 (2006).
  19. S. Gupta, D. Filimonov and M.W. Barsoum, “Isothermal Oxidation of Ta2AlC in Air”, J. Amer. Cer. Soc., 89, 2974-2976 (2006).
  20. T. Zhen, M.W. Barsoum, S.R. Kalidindi, “Effects of temperature, strain rate and grain size on the compressive properties of Ti3SiC2,” Acta Materialia, 53 (15), 4163-4171 (2005).
  21. A.G. Zhou, M.W. Barsoum, S. Basu, S.R. Kalidindi, T. El-Raghy, “Incipient and regular kink bands in fully dense and 10 vol.% porous Ti2AlC,” Acta Materialia, 54 (6), 1631-1639 (2006).
  22. E. Hoffman, G. Yushin, Y. Gogotsi, and M. Barsoum, “The effect of carbide chemistry and stoichiometry on carbide derived carbon porosity”, Prepr. Pap.-Am. Chem. Soc., Div. Fuel Chem. 51 (1), 39-40 (2006).
  23. A.A. Salem, S.R. Kalidindi, R.D. Doherty, S.L. Semiatin. “Strain Hardening Due to Deformation Twinning in a- Titanium: Part I – Mechanisms,” Mater Trans. 37A 259-268 (2006).
  24. J. Chmiola, G. Yushin, Y. Gogotsi, C. Portet, P. Simon, P.-L. Taberna, “Anomalous increase in carbon capacitance at pore size below 1 nm,” Science, (2006).
  25. G. Yushin, R.K. Dash, Y. Gogotsi, J.E. Fischer, “Enhanced Hydrogen Uptake by Carbide Derived Carbons with Optimized Pore Structure”, Advanced Functional Materials (2006).
  26. S. Osswald, G. Yushin, V. Mochalin, S. Kucheyev, Y. Gogotsi, “Control of sp2/sp3 carbon ratio and surface chemistry of nanodiamond powders by selective oxidation in air,” J. Am. Chem. Soc., 128, 11635-11642 (2006).
  27. K. Vyshnyakova, G. Yushin, L. Pereselentseva, Y. Gogotsi, “Formation of porous SiC ceramics by pyrolysis of wood impregnated with silica,” Applied Ceramic Technology (2006).
  28. J. Chmiola, G. Yushin, R. Dash, Y. Gogotsi, “Effect of Pore Size and Surface Area of Carbide Derived Carbons on Specific Capacitance,” J. Power Sources 158, 765-772 (2006).
  29. G. Laudisio, R.K. Dash, J.P. Singer, G.Yushin, Y.Gogotsi, J.E. Fischer, “Carbide-Derived Carbons: A Comparative Study of Porosity Based on Small-Angle Scattering and Adsorption Isotherms,” Langmuir (2006).
  30. R.K. Dash, J. Chmiola, G.N. Yushin, Y. Gogotsi, G. Laudisio, J. Singer, J.E. Fischer, S. Kucheyev, “Titanium Carbide Derived Nanoporous Carbon for Energy-Related Applications”. Carbon, 44, 2489-2497 (2006).
  31. Z.G. Cambaz, G. Yushin, Y. Gogotsi, and V.G. Lutsenko, “Anisotropic Etching of SiC Wiskers”. Nano Lett. (cover page image), 6 (3), 548-551 (2006).
  32. Y. Gogotsi, R.K. Dash, G. Yushin, T. Yildirim, G. Laudisio, J.E. Fischer, “Tailoring of Nanoscale Porosity in Carbide-Derived Carbons for Hydrogen Storage”. J. Am. Chem. Soc., 127(46) 16006-16007 (2005).
  33. S. Dimovski, A. Nikitin, H. Ye, Y. Gogotsi, “Low temperature synthesis of graphite from iron carbide,” New Carbon Based Materials for Electrochemical Energy Storage Systems, I. Barsukov et al. (eds.) Springer, The Netherlands, 399-410 (2006).
  34. G. Yushin, Y. Gogotsi, “Carbide derived carbon”, Prepr. Pap.-Am. Chem. Soc., Div. Fuel Chem. 51 (1),  262-263 (2006).
  35. G. Korneva, D. Mattia, Y. Gogotsi, J.-C. Bradley, “Filling carbon nanopipes with functionalized nanoparticles,” Prepr. Pap.-Am. Chem. Soc., Div. Fuel Chem. 51 (1), 36-37 (2006).
  36. V. Mochalin, K. Behler, G. Yushin, J. Detweiler, Y. Gogotsi, “Characterization and surface modification of ultradisperse diamonds,” Prepr. Pap.-Am. Chem. Soc., Div. Fuel Chem. 51 (1), 38 (2006).
  37. D. Mattia, Y. Gogotsi, “Surface functionalization to control the wetting behavior of nanostructured carbons,” Prepr. Pap.-Am. Chem. Soc., Div. Fuel Chem. 51 (1), 3-4 (2006).
  38. J. Chmiola, C. Portet, P. L. Taberna, P. Simon, G. Yushin, Y. Gogotsi, “Structure porosity and electrochemical behavior of carbide derived carbon for supercapacitor applications,” Prepr. Pap.-Am. Chem. Soc., Div. Fuel Chem. 51 (1), 187-188 (2006).
  39. R. Patel, B. Legum, Y. Gogotsi, B.E. Layton, “Parameterization of a Piezoelectric Nanomanipulation Device,” Proceedings of ESDA2006 8th Biennial ASME Conference on Engineering Systems Design and Analysis, July 4-7, Torino, Italy, Paper ESDA2006-95147 (2006).
  40. V. Shevchenko, Y. Gogotsi, E. Kartuzov, “Vibrational Spectrum of a Diamond-like Film on SiC Substrate,” K.G. Ewsuk, Y. Gogotsi (Eds.), Characterization, Design, and Processing of Nanosize Powders and Nanostructured Materials. Ceramic Transactions, 190, 233-235, American Ceramic Society (2006).
  41. V.L. Bekenev, V.V. Kartuzov, Y. Gogotsi, “Single-Crystal SiС Nanotubes: Molecular-Dynamic Modeling of Structure and Thermal Behavior,” K.G. Ewsuk, Y. Gogotsi (Eds.), Characterization, Design, and Processing of Nanosize Powders and Nanostructured Materials. Ceramic Transactions,190, 227-232, American Ceramic Society (2006).
  42. K. D. Behler, H. Ye, S. Dimovski, Y. Gogotsi, “The Structural Effects on Multi-walled Carbon Nanotubes by Thermal Annealing under Vacuum,” Carbon nanotubes, Ed. V.N. Popov,P. Lambin, NATO Science Series II. Mathematics, Physics and Chemistry, 222,45-46, Springer (2006).
  43. F.K. Ko, A. Aloufy, H. Ye, Y. Gogotsi, “Electrospinning of Nanofibers of Conductive Polymers,” Proc. International Symposium on Collaborative Research in Applied Science (ISOCRIAS), 7-9 Oct. Vancouver, Canada (2005).
  44. I.F. Mikhailov, O.M. Grigor’ev, Y. Gogotsi, V.I. Subbotin, A.T. Pugachev, O.V. Sobol, Z.I. Kolupaeva, “Development of Physical Foundations of Manufacturing Ceramic Composites with Increased Contact Failure Resistance,” Fundamental Directions of Science, Kiev, Akademperiodika (in Ukrainian), 327-343 (in Ukrainian) (2005).
  45. J. Ayutsede, M. Gandhi, S. Sukigara, H.Ye, C.M. Hsu, Y. Gogotsi, F.K. Ko, “Carbon Nanotube Reinforced Bombyx mori Silk Nanofibers by the Electrospinning Process,” Biomacromolecules; 7(1) 208-214 (2006).
  46. H. Ye, N. Titchenal, Y. Gogotsi, F.K. Ko, “SiC nanowires synthesized from electrospun nanofiber templates,” Adv. Mater. 17 (12) 1531-1535 (2005).
  47. M. Ivosevic, R. Knight, S. R. Kalidindi, G. R. Palmese, J. K. Sutter, “Solid Particle Erosion Resistance of Thermally Sprayed Functionally Graded Coatings for Polymer Matrix Composites,” Surface & Coatings Technology, 200, 5145-5151 August (2006).
  48. Gwénaëlle Proust, S.R. Kalidindi,“Procedures for construction of anisotropic elastic-plastic property closures for face-centered cubic polycrystals using first-order bounding relations,” Journal of the Mechanics and Physics of Solids, 54 (8) 1744-1762 (2006)
  49. D.T. Fullwood, B.L. Adams, S.R. Kalidindi, “Generalized Pareto front methods applied to second-order material property closures,” Computational Materials Science, Available online 17 July (2006).
  50. S.R. Kalidindi, M. Binci, D. Fullwood, B.L. Adams, “Elastic properties closures using second-order homogenization theories: Case studies in composites of two isotropic constituents,” Acta Materialia, 54 (11) 3117-3126, June (2006).
  51. S.R. Kalidindi, H.K. Duvvuru, M. Knezevic, “Spectral calibration of crystal plasticity models,” Acta Materialia, 54 (7) 1795-1804, April (2006).
  52. S. Li, S.R. Kalidindi, I.J. Beyerlein, “A crystal plasticity finite element analysis of texture evolution in equal channel angular extrusion,” Materials Science and Engineering: A, (410-411) 207-212, November 25 (2005).
  53. M. Ivosevic, R. A. Cairncross, R. Knight, “3D Predictions of Thermally Sprayed Polymer Splats: Modeling Particle Acceleration, Heating and Deformation on Impact with a Flat Substrate,” International Journal of Heat and Mass Transfer, 49, 3285-3297 (2006).
  54. J.A. Cooper, H.H. Lu, F.K. Ko, J.W. Freeman, C.T. Laurencin, “Fiber-based tissue-engineered scaffold for ligament replacement: design considerations and in vitro evaluation.” Biomaterials 26 (13): 1523-1532. (2005).
  55. M.Y. Li, M.J. Mondrinos, M.R. Gandhi, F.K. Ko, A.S. Weiss, P.I. Lelkes,  “Electrospun protein fibers as matrices for tissue engineering.” Biomaterials,  26 (30) 5999-6008 (2005).
  56. J.J. Mack, L.M. Viculis, A. Ali, R. Luoh, G. Yang, H.T. Hahn, F.K. Ko, R.B. Kaner, “Graphite Nanoplatelet  Reinforcement of Electrospun Polyarylonitrile Nanofibers,” Adv. Mater. 17 (1) January (2005).
  57. N. Orlovskaya, M. Lugovy, F.K. Ko, S. Yarmolenko, J. Sankar, J. Kuebler, “SiC/SiC Laminates: Design, Manufacturing, mechanical properties,” Composites Part B: 37 524-529 (2006).
  58. D. R. Dillon, K. K. Tenneti, C.Y. Li, F.K. Ko, I. Sics, B. Hsiao, “On the Structure and Morphology of PVDF/clay Nanocomposites,” Polymer, 47, 1678-1688 (2006).
  59. K. K. Tenneti, X. F. Chen, C.Y. Li, X. Wan, Q-F Zhou, I. Sics, B. Hsiao, “Perforated Structures in Rod-coil Liquid Crystalline Block Copolymers,” J. Am. Chem. Soc., 127, 15481-15490 (2005).
  60. S. L. Kodjie, L. Li, B. Li, W. Cai, C.Y. Li, M. Keating, “Morphology and Crystallization Behavior of HDPE/CNT Nanocomposite,” J. Macro. Sci., Phys., 45, 231-245 (2006).
  61. X. Chen, K. K. Tenneti, C.Y. Li, Y. Bai, R. Zhou, X. Wan, X. Fan, Q-F Zhou, “Design, Synthesis and Characterization of Bent-core Mesogen-jacketed Liquid Crystalline Polymers,” Macromolecules, 39, 517-527 (2006).
  62. L. Li, C.Y. Li, C. Ni, “Polymer Crystallization-Driven, Periodic Patterning on Carbon Nanotubes,” J. Am. Chem. Soc. 128, 1692-1699 (2006).
  63. L. Li, Y. Yang, G. Yang, X. Chen, B. S. Hsiao, B. Chu, J. E. Spanier, C.Y. Li , “Patterning Polyethylene oligomers on Carbon Nanotubes Using Physical Vapor Deposition,” Nano Lett., 6, 1007-1012 (2006).
  64. M. J. Birnkrant, H. McWilliams, C.Y. Li, L. V. Natarajan, V. P. Tondiglia, P. F. Lloyd, R. L. Sutherland, T. J. Bunning, “On the Structure of Holographic Polymer Dispersed Polyethylene Glycol,” Polymer, (2006).
  65. A. Joshi, S. Methta, E. Vresilovic, A. Karduna, M. Marcolongo, “Nucleus implant parameters significantly change the compressive stiffness of the human lumbar intervertebral disc,” Trans. of the ASME, 127 536-540 (2005).
  66. E. Ho, M. Marcolongo, Effect of coupling agents on the local mechanical properties of bioactive dental composites by the nano-indentation technique,Dental Mater., 21, 656-644 (2005).
  67. G. Fussell, J. Thomas, J. Scanlon, A. Lowman, M. Marcolongo, “The Effect of Protein-Free versus Protein-Containing Media on the Uptake of Ions in PVA/PVP  Hydrogels,” J. Biomater. Sci. Polym. Edn., 16(4) 489-503 (2005).
  68. N. Orlovskaya, J. Kuebler, V. Subbotin, M Lugovy, “Design of Si3N4-based ceramic laminates by the residual stresses,” Journal of Materials Science, 40 (20) 5443-5450, Oct (2005).
  69. N. Orlovskaya, M. Lugovy, V. Subbotin, O. Radchenko, J.  Adams, M. Chheda, J. Shih, J. Sankar and s. Yarmolenko, “Robust design and manufacturing of ceramic laminates with controlled thermal residual stresses for enhanced toughness, “Journal of Materials Science, 40 (20) 5483-5490, Oct (2005).
  70. G. Blugan, N. Orlovskaya, M. Lewis, J. Kuebler, “Multi-layer silicon nitride laminates exhibiting high fracture toughness and crack deflection,” Key Engineering Materials, 280-283: 1863-1867, Part 1-2 (2005).
  71. N. Orlovskaya, H. Anderson, M. Brodnikovskyy, M. Lugovy, M.J. Reese, “Inelastic deformation behavior of La0.6Sr0.4FeO3 perovskite,” Journal of Applied Physics, 100 (2) No. 026102, July (2006).
  72. G. Blugan, R. Dobedoe, I. Gee, N. Orlovskaya, J. Kubler, “Failure behavior of high toughness multi-layer Si3N4 and Si3N4-TiN based laminates,” Fractography of Advanced Ceramics II Key Engineering Materials,  290: 175-182 (2005).
  73. J. Sankar, D. Hui, A.K.T. Lau, N. Orlovskaya, S. Yarmolenko, “Nanoengineered Composites and Ceramic Laminates,” Composites Part B-Engineering, 37 (6) 379-381 (2006).
  74. M.F. Chi, N. Browning, N. Orlovskaya, “Microstructural evolution of protective La-Cr-O films studied by transmission electron microscopy,” Journal of Solid State Electrochemistry, 10 (8) 659-662, Aug (2006).
  75. A.M. Coratolo, N. Orlovskaya, M. Lugovy, V. Slyunyayev, S. Dub, C. Johnson, R. Gemmen, “Nanoindentation of LaCrO3 thin films,” Journal of Materials Science, 41 (10) 3105-3111, May (2006).
  76. Z. Shen, W.Y. Shih, W.-H. Shih, “Mass Detection Sensitivity of Piezoelectric Cantilevers with a Nonpiezoelectric Extension,” Rev. Sci. Ins., 77 (6) 065101 (2006).
  77. S.T. Szewczyk, W. Y. Shih, W.–H. Shih, “Palpation-Like Soft Materials Elastic Modulus Measurement Using Piezoelectric Cantilevers,” Rev. Sci. Ins., 77, 044302 (2006).
  78. Q. Zhao, Q. Zhu, W. Y. Shih, W.-H. Shih, “Array Adsorbent-Coated Lead Zirconate Titanate (PZT)/Stainless Steel Cantilevers for Dimethyl Methylphosphonate (DMMP) Detection,” Sensors & Actuators, B. 117, 74-79 (2006).
  79. Z. Shen, W. Y. Shih, W.-H. Shih, “Self-Exciting, Self-Sensing PZT/SiO2 Piezoelectric Microcantilever Sensors with Femtogram/Hz Sensitivity,” Appl. Phys. Lett., 89, 023506 (2006).
  80. L. Cao, B. Garipcan, J. Atchison, C. Ni, B. Nabet, J.E. Spanier, “Instability and transport of metal catalyst in the growth of tapered silicon nanowires,” Nano Lett. (2006).
  81. X. Zhao, A. Cola, A. Tersigni, F. Quaranta, E. Gallo, J.E. Spanier, B. Nabet, “Optically Modulated High Sensitivity Heterostructure Varactor,” IEEE Trans. Electron. Dev. Lett. (2006).
  82. L. Cao, B. Nabet, J.E. Spanier, “Enhanced Raman scattering from individual semiconductor nanoconesa dn nonwires,” Phys. Rev. Lett. 96, 157-402 (2006).
  83. J.E. Spanier, A. Kolpak, J.J. Urban, W.S. Yun, L. Ouyang, I. Grinberg, A.M. Rappe, H. Park, “Ferroelectric Phase Transition in Individual Single-Crystalline BaTiO3 Nanowires,” Nano Lett., 6, 735-739 (2006).
  84. L. Cao, P. Valenzuela, S.S. Nonnenmann, E. Gallo, B. Nabet, J.E. Spanier, “Enhancements in the Scattering from Individual Si Nanowires,” J. Raman Spectroscopy (2006).
  85. A. Zavaliangos, J-M Missiaen, D. Bouvard, “Anisotropy in Shrinkage During Sintering,” Science of Sintering, 38(1), 13-25, Jan-Apr (2006).
  86. B. McWilliams, A. Zavaliangos, KC Cho, R. Dowding, “The Modeling of Electric-Current-Assisted Sintering to Produce Bulk Nanocrystalline Tungsten,” JOM, 58 (4) 67-71, Apr (2006).
  87. F. Nowicke, A. Zavaliangos, H.R. Rogers, “The Effect of Roll and Clad Sheet Geometry on the Necking Instability During Rolling of Clad Sheet Metals,” International Journal of Mechanical Science, 48 (8) 868-877, Aug (2006).

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Last updated Friday, June 6, 2008