Curriculum Vitae STEPHEN A. HACKNEY Birth Date: 10/28/57 Citizenship: U.S. University Degrees 1977-1980 B.S. Chemistry, James Madison University, Harrisonburg, VA 1980-1983 M.S. Materials Science, University of Virginia, Charlottesville, VA Thesis: “A Study of the Low Pressure Oxidation of V-20Ti Alloy” Advisor: Dr. Kenneth Lawless 1983-1985 Ph.D. Materials Science, University of Virginia, Charlottesville, VA Dissertation: “Crystallographic Effects in the Pearlite Transformation” Advisor: Dr. Gary Shiflet Relevant Experience 1985-1986 National Research Council, Postdoctoral Research Associate at the National Bureau of Standards, Gaithersburg, MD 1986-1990 Assistant Professor, Michigan Technological University, Houghton, MI 1990-1994 Associate Professor, Michigan Technological University, Houghton, MI 1994-present Professor, Michigan Technological University, Houghton, MI Research Interests Experimental study and interpretation of the physical processes which occur at interfaces and surfaces in thin films, ceramic materials and magnetic materials. Processing, structure and property relationships in technical ceramics and metals. Modeling of diffusion/conduction, thermodynamics and phase transformations. Analysis of materials structure by transmission and scanning electron microscopy and x-ray diffraction. Research Sponsorship “Gradient Effects on Boundary Stability,” Principal Investigator (3 years), U.S. Department of Energy (1987-1990). “Medium High Voltage TEM for Materials Research,” Principal Investigator (1 year), U.S. Department of Energy (1990). “Materials Chemistry and processing for the Growth of Ceramic Thin Films,” Principal Investigator (1 year), State of Michigan Research Excellence Fund (1989-1991). “Boundary Stability Under Non-equilibrium Conditions,” Principal Investigator (3 years), U.S. Department of Energy (1990-1992). “Boundary Stability Under Non-Equilibrium Conditions,” supplemental funding, Principal Investigator (1 year), U.S. Department of Energy (1991). “Molecular Beam Epitaxy Equipment for Systematic Interface Research,” Principal Investigator (1 year), U.S. Department of Energy (1991). “Morphological Instability During Thin Film Interdiffusion,” Principal Investigator (3 years), National Science Foundation (1992-1994). “Nanostructural Materials and Composites,” Co-Principal Investigator (3 years), Air Force Office of Scientific Research (1991-1993). “Boundary Stability Under Non-equilibrium Conditions,” Principal Investigator (3 years), U.S. Department of Energy (1993-1996). “Ternary Effects in Thin Film Interdiffusion,” Principal Investigator (3 years), National Science Foundation (1994-1996). “Pattern Formation in Nanostructural Materials,” Co-Principal Investigator (3 years), Air Force Office of Scientific Research (1995-1998). “Intercalation Materials for Advanced Batteries,” Subcontract (9 years), DOE-BES through Argonne National Laboratory (1996-2005). “Perhydride Hydrogen Storage”, Co-Principle investigator (4 years), DOE-BES (2004-2007) University/Community Service Departmental Faculty Search Committee Departmental Graduate Studies Committee Departmental Fellowship Committee Participant in the MTU Women in Engineering Program Participant in the MTU Freshman Mentor Program Faculty Advisor for the MTU chapter of InterVarsity Department University Senate Faculty Representative Honors, Awards, and Fellowships 1980 American Chemical Society Outstanding Senior Chemistry Major at James Madison University 1980 Graduated Magna Cum Laude with Distinction (completed a program of honors courses in humanities and the sciences. 1980 Awarded a Governor’s Fellowship to the University of Virginia 1983 AIME (Virginia section) award for best student paper presented at the Virginia Academy of Sciences 1984 Awarded a National Research Council Postdoctoral Research Associateship at the National Bureau of Standards 1990 Awarded NCEM Visiting Scientist Fellowship 1991 Received the Michigan Technological University Research Award 1992 Received a Distinguished Faculty Member Award from the Michigan Association of Governing Boards 2011 Inducted MTU Academy of Teaching Excellence Graduate Student Education Sang Ho Yu, Ph.D., 1991 Blaine Danley, M.S., 1991 Rajiv Kedia, M.S., 1993 Eric McCarty, M.S., 1993 Weimin Tao, Ph.D. 1997 Yang Shao-Horn, Ph.D., 1998 Thapanee Sarakonsri, MS, 1999 Thapanee Sarakonsri Ph. D 2004 Parinya Chakartnoradom PhD 2009 Publications 1. “In situ Oxidation Studies of V-20Ti Alloy,” S.A. Hackney, E.A. Kenik, R.W. Carpenter, and K.R. Lawless, Proceedings of the 7th International Conference on High Voltage Electron Microscopy, p. 273 (1982). Not reviewed. 2. “Observations on Curvature of the Pearlite Ferrite:Cementite Interface in an Fe-0.80% C Steel,” S.A. Hackney and G.J. Shiflet, in Phase Transformations in Ferrous Alloys, The Minerals, Metallurgical and Materials Society-AIME, Warrendale, PA, p. 237 (1983). 3. “Interfacial Structure at the Pearlite:Austenite Growth Interface in an Fe-o.8 C-12Mn Steel,” S.A. Hackney and G.J. Shiflet, Scripta Metallurgica, 19, 757 (1985). 4. “Anisotropic Interfacial Energy at Pearlite Lamellar Boundaries in High Purity Fe-0.8% C Alloys,” S.A. Hackney and G.J. Shiflet, Scripta Metallurgica, 20, 389 (1986). 5. “Observations on Crystal Defects Associated with DIGM in Cu-Zn,” S.A. Hackney, F.S. Biancaniello, D.N. Yoon, C.A. Handwerker, Scripta Metallurgica, 20, 937 (1986). 6. “Directional Invariance of Grain Boundary Migration in the Pb-Sn Cellular Transformation and the Tu-Turnbull Hysteresis,” S.A. Hackney and F.S. Biancaniello, Scripta Metallurgica, 20, 1417 (1986). 7. “Experimental Observations on the Initiation of DIGM,” S.A. Hackney, Scripta Metallurgica, 20, 1385 (1986). 8. “The Pearlite:Retained Austenite Growth Interface,” S.A. Hackney and G.J. Shiflet, Acta Metallurgica, 35, 1007 (1987). 9. “Pearlite Growth Mechanism,” S.A. Hackney and G.J. Shiflet, Acta Metallurgica, 35, 1019 (1987). 10. “Experimental Indications of a Low Undercooling Instability in the Cellular Mechanisms of Discontinuous Precipitation,” S.A. Hackney, Scripta Metallurgica, 21, 371 (1987). 11. “The Kurdjumov-Sachs Orientation Relationship in Cu-Be Pearlite,” J. Beatty, S.A. Hackney, G.J. Shiflet, Phil. Mag. A, 57, 457 (1988). 12. “Migration of Liquid Film in Mo-Ni Alloy Induced by W. Addition-Effect of Coherency Strain,” H.K. Kang, S.A. Hackney, and D.N. Yoon, Acta Met., 36, 695 (1988). 13. “A Simple Geometric Method for the Thermodynamics of Metastable CVD,” S.A. Hackney, Scripta Met., 22, 469 (1988). 14. “An Example of Grain Boundary Dissociation at Triple Junctions During DIGM’” S.A. Hackney, Scripta Met., 22 (1988). 15. “The Effects of Grain Size Gradients on the Stability of Thin Films,” S.A. Hackney, Scripta Met., 22, 1273 (1988). 16. “Grain Boundary Grooving at Finite Grain Size,” S.A. Hackney and G.C. Ojard, Scripta Met., 22, 1731 (1988). 17. “In Situ Observations of Intrinsic Grain Boundary Structure During Thermal Cycling,” T. Lillo, M.R. Plichta, and S.A. Hackney, Ultramicroscopy, 29, 257 (1989). 18. “Interfacial Structure of Precipitates in Al-5% Cu Alloys,” S.A. Hackney and G.J. Shiflet, Materials Science and Engineering, A113 (1989). 19. “Experimental Observations on the Misfit Dislocation Structure for a Low Symmetry Gradient Orientation,” S.A. Hackney, Materials Science and Engineering, A113, 75 (1989). 20. “Grain Boundary Structural Disruption Under Thermal Stress,” S.A. Hackney and T. M. Lillo, Scripta Met., 24, 1653 (1990). 21. “On the Shape Change of a Non-Equilibrium Facetted Microcrystal,” Yu Sangho and S.A. Hackney, Scripta Met, 24, 2077 (1990). 22. “Direct Observation of Grain Boundary Dislocation Motion Due to Thermal Stresses,” T. Lillo, M.R. Plichta, and S.A. Hackney, Scripta Met., 24, 369 (1990). 23. “Experimental Observations on Epitaxial NiSi2 Islands on <111> Si,” S.A. Hackney and R. Lynch, Scripta Met., 24, 681 (1990). 24. “Coherency Breaking in Thin Films,” J.K. Lee and S.A. Hackney, to appear in MRS Proceedings. 25. “On the Stability of the Rayleigh Spheroidization Process,” S.A. Hackney, Scripta Met., 25, 799 (1991). 26. “On Grain Boundary Dissociation During Diffusion and Stress Induced Boundary Migration,” S.A. Hackney, Scripta Met, 25, 1023 (1991). 27. “Morphological Instabilities and the Branching Mechanism at the Initiation of the Eutectoid Transformation,” S.A. Hackney, Scripta Met., 25, 1453 (1991). 28. “Capillarity Induced Morphological Instabilities,” J.K. Lee, S.A. Hackney, and M.R. Plichta, NRIM International Workshop on Computational Materials Science, III (1991). 29. “In Situ Deformation Studies of Ductile/Brittle Laminates,” S.A. Hackney and W.W. Milligan, Ultramicroscopy, 37, 79 (1991). 30. “On the Origins of Ghost Boundaries During In Situ Strain Induced Migration,” T.M. Lillo, S.A. Hackney, and M.R. Plichta, Ultramicroscopy 37, 294 (1991). 31. “Experimental Observations on the Growth Morphology of the Phase During Al/Cu Interdiffusion,” S.A. Hackney, Scripta Met., 26, 1125 (1992). 32. “Deformation and Damage at the nanoscale: Preliminary Observations and Modeling,” W.W. Milligan, S.A. Hackney, and E.C. Aifantis, ASME Symposium on Damage Mechanics and Localization, 34, 153 (1992). 33. “Morphological Changes in Rod-Shaped Precipitates With Internal Boundaries,” J.H. Choy, S.A. Hackney, and J.K. Lee, Mat. Res. Soc. J., 237, 151 (1992). 34. “Edge Instabilities in Thin Plates with Spatial Variation in Thickness,” R.S. Kedia, T.M. Lillo, Q.M. Horn, M.R. Plichta, and S.A. Hackney, Scripta Metal. Et. Mater., 28, 269 (1993). 35. “Edge Instabilities in Thin Plates Studied by In Situ Transmission Electron Microscopy,” S.A. Hackney, T.M. Lillo, R.S. Kedia, Q.C. Horn, and M.R. Plichta, Ultramicroscopy, 51, 81-89 (1993). 36. “In Situ Studies of Deformation and Fracture in Nanophase Materials,” W.W. Milligan, S.A. Hackney, M. Ke and E.C. Aifantis, NanoStructured Materials, 2, 267-276 (1993). 37. “An Analysis of Morphological Instabilities at the Initiation of the Eutectoid Transformation Using a Kinetic Analogue,” S.A. Hackney, Journal of Mechanical Behavior of Materials, 5, 11-24 (1993). 38. “The Morphological Stability of Solid/Solid Phase Transformation During Thin Film Interdiffusion,” E.D. McCarty and S.A. Hackney. Accepted to Met. Trans. 39. “Morphology and Phase Metastability in the AlCu Thin Film Reaction,” E.D. McCarty and S.A. Hackney, MRS Proceedings, 312, 127 (1993). 40. “High Resolution Study of Nanocrystalline Deformation,” M. Ke, W.W. Milligan, E.C. Aifantis, and S.A. Hackney, MRS Proceedings, 308, 565-569 (1993). 41. “Dislocation Strain Field Probes of Metal/Ceramic Interfaces,” E.D. McCarty and S.A. Hackney, MRS Proceedings, 314, 89 (1993). 42. “Nonlinear Stability Analysis of the Rayleigh Spheroidization Process,” J.H. Choy, S.A. Hackney, and J.IK. Lee, Journal of Applied Physics, 77(11), 5647 (1995). 43. “Edge Instabilities in Thin Plates,” S.A. Hackney, Scripta Metallurgica et Materialia, 31, 37 (1994). 44. “Dislocation Strain Field Probes of the Al/SiO2 and Al/C Interfaces,” E.D. McCarty and S.A. Hackney, Materials Science and Engineering, A196, 119-128 (1995). 45. Book Chapter: W.W. Milligan, S.A. Hackney, and E.C. Aifantis, “Constitutive Modeling for Nanostructured Materials,” Chapter 11 in Continuum Models for Materials with Microstructure, Wiley (1995). 46. “The Morphological Stability of Lateral Growth in Solid-Solid Phase Transformations During Thin Film Interdiffusion in Al/Cu Thin Films,” E.D. McCarty and S.A. Hackney, Metallurgical Transactions A, 25A, 1613 (1994). 47. “Glass-like Behavior in a Nanostructured Fe/Cu Alloy,” J.E. Carsley, W.W. Milligan, S.A. Hackney, and E.C. Aifantis, Metallurgical Transactions A, 26A, 2479-2481, (1995). 48. “Observations and Measurement of Grain Rotation and Plastic Strain in Nanostructured Metal Thin Films,” M. Ke, S.A. Hackney, W.W. Milligan, and E.C. Aifantis, NanoStructured Materials, 5, 689-698 (1995). 49. “A Simple Mixtures Based Model for the Grain Size Dependence of Strength in Nanophase Metals,” J.E. Carsley, J. Ning, W.W. Milligan, S.A. Hackney, and E.C. Aifantis, NanoStructured Materials, 5, 441-448 (1995). 50. “XRD and TEM Characterization of Cathodic MnO2 and Discharge Products in the Li-MnO2 Cell”, Y. Shao, S.A. Hackney, and B.C. Cornilsen, MRS Proc., 393 (1995). 51. “Periodic Behavior in Surface Limited Grain Growth”, S.A. Hackney, Scripta Metallurgica et Materialia, 34, 1021-1026 (1996). 52. “Nonlinear Effects in Surface Limited Grain Growth”, S.A. Hackney, Scripta Metallurgica et Materialia, (1996). 53. “Stabilized alpha-MnO2 Electrodes for Rechargeable 3 V Lithium Batteries”, C.S. Johnson, M.F. Mansuetto, M.M. Thackeray, Y. Shao-Horn, and S.A. Hackney, J. Electrochem. Soc., 144, 2279 (1997). 54. “Structural Characterization of HEMD and Topotactic Transformation of Discharge Products in the Li/MnO2 Cells”, Y. Shao-Horn, S.A. Hackney, and B.C. Cornilsen, J. Electrochem. Soc., 144, 3147 (1997). 55. “Morphology Modification and Delithaiation Mechanism of LiMn2O4 and Li2MnO3 by Acid Digestion”, Y. Shao-Horn, S.A. Hackney, W.F. Howard, W.F. Averill, Y. Ein-Eli, and A.D. Robertson, J. Electrochem. Soc., 145, 16 (1998). 56. “Microstructural Stability of Electrochemically Active Alpha-MnO2 During Redox Synthesis and Li Intercalation”, Y. Shao-Horn, S.A. Hackney, C.S. Johnson, and M.M. Thackeray, J. Electrochem. Soc., 145, 582 (1998). 57. “Formation of Self Assembled Quantum Wires”, X. Deng, Bi-Ke Yang, S.A. Hackney, M. KrishnaMurthy, and D.R.M. Williams, Phys. Rev. Letters, 80, 1022, 1998. 58. “Structural Features of Low-Temperature LiCoO2 and Acid-Delithiated Products”, Y. ShaoHorn, S.A. Hackney, C.S. Johnson, and M.M. Thackeray, J. Solid State Chemistry, 140, 116 (1998). 59. “Structural Fatigue in Spinel Electrodes in High Voltage (4V) Li-LixMn2O4 Cells”, M.M. Thackeray, Y. Shao-Horn, A.J. Kahain, K.D. Kepler, E. Skinner, J.T. Vaughey, and S.A. Hackney, Electrochemical and Solid State Letters, 1, 7 (1998). Over 150 citations. 60. “Structural Characterization of Layered LiMnO2 Electrodes by Electron Diffraction and Lattice Imaging”, Y. Shao-Horn, S. A. Hackney, A. R. Armstrong, P. G. Bruce, R. Gitzendanner, C. S. Johnson and M. M. Thackeray, J. Electrochem. Soc. 146, 2404 (1999). Over 50 citations 61. “Stabilization of Insertion Electrodes for Li Batteries”, M.M. Thackeray, Y. Shao-Horn, A.J. Kahain, K.D. Kepler, J.T. Vaughey, and S.A. Hackney, J. Power Sources, 81, pp60-66 (1999). 62. “Structural fatigue in spinel electrodes in Li/Li-x[Mn-2]O-4 cells”, Shao-Horn Y, Hackney SA, Kahaian AJ, Kepler KD, Skinner E, Vaughey JT, Thackeray MM, JOURNAL OF POWER SOURCES , 81: 496-499 SEP 1999. 63. Structural and Electrochemical Analysis of Layered Compounds from Li2MnO3”, C. S. Johnson, M.M. Thackeray, Y. Shao-Horn, A.J. Kahain, K.D. Kepler, Todd Bofinger, J.T. Vaughey, and S.A. Hackney, J. Power Sources, 82, 491-496 (1999). 64. “Composite Electrodes for Li Ion Batteries.”, M.M. Thackeray, C. S. Johnson,Y. Shao-Horn, A.J. Kahain, K.D. Kepler, E. Skinner, J.T. Vaughey, and S.A. Hackney, ITE Battery Letters, 1,1 (1999) 65. “Preferred Orientations of Polycrystalline LiCoO2 Films”, J. B. Bates, N. J. Dudney, P. H. Jun, S. A. Hackney, Journal of the Electrochemical Society, vol. 147, 59 (2000). 66. Nanocrystalline LixMn2-yO4 cathodes for solid-state thin-film rechargeable lithium batteries Dudney NJ, Bates JB, Zuhr RA, et al. JOURNAL OF THE ELECTROCHEMICAL SOCIETY,146 (7): 2455-2464 JUL 1999 67. "W. Bowden, R. Sirotina and S. A. Hackney, ITE Letters, 1, 903 (2000). 68. “Electrochemistry and in-situ X-ray diffraction of InSb in lithium batteries”, Johnson CS, Vaughey JT, Thackeray MM, Sarakonsri T, Hackney SA, Fransson L, Edstrom K, Thomas JO, ELECTROCHEMISTRY COMMUNICATIONS , 2 (8): 595-600 AUG 2000 69. INTERMETALLIC INSERTION ELECTRODES FOR LITHIUM BATTERIES J. T. Vaughey, K. Kepler, C. S. Johnson, T. Sarakonsri, R. Benedek, J. O'Hara, S. Hackney, and M. M. Thackeray Electrochem. Soc. Proc. Vol. 99-24 (Eds. G.-A. Nazri, M. M. Thackeray, and T. Ohzuku) p. 280-289 (2000) 70. “Structural and mechanistic features of intermetallic materials for lithium batteries”, Vaughey JT, Johnson CS, Kropf AJ, Benedek R, Thackeray MM, Tostmann H, Sarakonsri T, Hackney S, Fransson L, Edstrom K, Thomas JO, JOURNAL OF POWER SOURCES, 97-8: 194-197 Sp. Iss. SI JUL 2001 71. "Lithiation of HEMD: NMR, XRD, TEM and Electrochemical Investigation of the Discharge Mechanism" W. Bowden, C. Grey, S. A. Hackney, X. Q. Yang, Y. Paik, F. Wang, T. Richards and R. Sirotina in "ITE Letters" vol. 3 no. 3, pages 312-336 (2002). 72. ."On The Low Temperature Stability of LiCoO2", Y. Shao-Horn, S. A. Hackney, A. J. Kahaian, M. M. Thackeray, Journal of Solid State Chemistry, 168, pp 60-68, (2002) 73. “ZrO2- and Li2ZrO3-stabilized Spinel and Layered Electrodes for Lithium Batteries” M. M. Thackeray, C. S. Johnson, S. A. Hackney, and M. A. Anderson, Electrochemical Communications, 5, pp 752-758 (2003). 74. “Mechanical Stability of Composite Electrodes in Li Ion Batteries”, K.E. Aifantis and S. A. Hackney, J. Mechanical Behavior of Materials, 14, 413 (2003) 75. Aifantis K.E., Hackney S.A., Elasticity in Li-Batteries, Journal of the Mechanical Behavior of Materials 14, 403, 2003. 76. “Electrochemical and Structural Properties of xLi2M’O3 (1-x)LiMn0.5Ni0.5O2 Electrodes.” J-S. Kim, C. S. Johnson, J. T. Vaughey, M. M. Thackeray, S. A. Hackney, W. Yoon and C. P. Grey, Chem. Mater., 16, 1996 (2004). 77. “The Electrochemical Stability of Spinel Electrodes Coated with ZrO2, Al2O3 and SiO2”, J. S. Kim, C. S. Johnson, S. A. Hackney, M. A. Anderson, M. M. Thackeray, J. Electrochem. Soc. , 151, A1755A1761 (2004) 78. “Supramolecular Control of Complexation-induced Fluorescence Change of Water-soluble, Cyclodextrin-modified CdS Quantum Dots”, Kumaranand Palaniappan, Stephen A. Hackney and Jian Liu Chem. Commun., (23), 2704 – 2705 (2004) 79. Xue CH, Arumugam G, Palaniappan K, S. A. Hackney, J. Liu. Construction of conjugated molecular structures on gold nanoparticles via the Sonogashira coupling reactions CHEMICAL COMMUNICATIONS (8): 1055-1057 FEB 28 2005 80. Wee Engineering KM, Rogers and TN, medical Altan applications BS, Hackney of SA. diatoms JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY 5 (1): 88-91 JAN 2005 81. “ A Metal NanoParticle Based Supramolecular Approach for Aqueous Biphasic Reactions.”, J. Liu, S. A. Hackney, Chem. Comm. 24, pp 3207-3209 (2005). 82. “Lithium-manganese oxide electrodes with layered-spinel composite structures for Li batteries”, C. S. Johnson, N. Li, J. T. Vaughey, S. A. Hackney, M. M. Thackeray, Electrochemistry Communications, 7, 528-536 (2005). 83. “Advances in Manganese-Oxide 'Composite' Electrodes for Lithium-Ion Batteries”, C.S. Johnson, S. A. Hackney, C. Grey, M. M. Thackeray, Journal of Materials Chemistry, 15, 2245 (2005) 84. "Preparation of a Novel TiO2-Based p-n Junction Nanotube Photocatalyst", L. Sutter, D. Hand, S. Hackney and J. Crittenden, (Environ. Sci. Technol. 2005, 39(5): 1201-1208)- First Runner-Up: Environmental Technology Paper of the Year. 85. “Cracking in Si Based Li Ion Batteries”, K. Aifantis, S. Hackney and J. Dempsey, Rev. Adv. Mater. Sci. 10, 403-408 (2005). 86. M. M. Thackeray, S-H. Kang, C. S. Johnson, J. T. Vaughey and S. A. Hackney, Electrochem. Comm., 2006, 8, 1531. 87. “Lithiation of ramsdellite–pyrolusite MnO2; NMR, XRD, TEM and electrochemical investigation of the discharge mechanism” W. Bowden, C.P. Grey, S. Hackney, F. Wang, Y. Paik, N. Iltchev , R. Sirotina, Journal of Power Sources 153 (2006) 265–273 88. “New manganese dioxides for lithium batteries” W. Bowden,, T. Bofinger, F. Zhang, N. Iltchev, R. Sirotina, Y. Paikb, H. Chenb, C. Grey, S. Hackney; Journal of Power Sources165 (2007) 609–615 89. “Sonogashira Reactions Catalyzed by Water-Soluble, β-Cyclodextrin-capped Palladium Nanoparticles” Cuihua Xuea, Kumaranand Palaniappana, Ganesh Arumugama, Stephen A. Hackneyb, Jian Liua and Haiying Liua* Accepted to Catalysis Letters 90. “Li2MnO3-stabilized LiMO2 (M=Mn, Ni, Co) Electrodes for High Energy Lithium-Ion Batteries” Michael M. Thackeray, Sun-Ho Kang, Christopher S. Johnson, John T. Vaughey, Roy Benedek and S. A. Hackney J. Mater. Chem., 2007, 17, 3112 91. “MICRO- AND NANOSCALE GRAPHITE CONES AND TUBES FROM HACKMAN VALLEY, KOLA PENINSULA, RUSSIA” John A. JASZCZAK§, Svetlana DIMOVSKI†, Stephen A. HACKNEY, George W. ROBINSON , Paolo BOSIO, Yury GOGOTSI The Canadian Mineralogist ,Vol. 45, pp. 379-389 (2007) 92. K.E Aifantis., Dempsey J.P., Hackney S.A., Design criteria for nanostructured Li-ion batteries, Journal of Power Sources 165, 874, 2007. IF: 2.809 93. K.E. Aifantis and S.A. Hackney, Chapter: Nanoscale Engineering for the Mechanical Integrity of Li-Ion Electrode Materials, contained in the book titled: Electronic Properties of Nanostructured Materials, Editor: Ali Eftekhari, Published by Wiley-VCH, ISBN 978-3-527-31876-6 (2008) 94. Aifantis K.E., Konstantinidis A.A., Hackney S.A., On some aspects of interfaces at the nanoscale, Journal of Mechanics and MEMS 1, 105, 2009. 95. “Morphological Stability Analysis of Polycrystalline Interconnects Under the Influence of Electromigration” Aifantis K.E., Hackney S.A., , Reviews of Advanced Materials Science, Rev.Adv.Mater.Sci. 19 (2009) 98102 96. SnO2/C Nanocomposites as Anodes in Secondary Li-ion Batteries; K.E. Aifantis, S. Brutti, S.A. Hackney, T. Sarakonsri, B. Scrosatie; Electrochimica Acta 55 (2010) 5071–5076 97. Editor/Author of the Book Titled: High Energy density li ion Batteries. Published by Wiley VCH in 2010 J. Naber*, J. Worm, C. Anderson, J. Beard, B. Chen, J. Keith, S. Hackney, and W. Weaver, “Vehicle Electrification - A New Curriculum with Focus on Vehicle Systems,” 2011 Michigan Chapter NDIA Ground Vehicle Systems Engineering and Technology Symposiuma 98. W. Weaver*, C. Anderson, J. Naber, J. Keith, J. Worm, J. Beard and B. Chen, “An Interdisciplinary Program for Education and Outreach in Hybrid and Electric Drive Vehicle Engineering at Michigan Technological University,” 2011 IEEE Vehicle Power and Propulsion Conference, Chicago, IL, accepted. . 99. Other Recent Collaborators John Bates, ORNL Radoslav Atanasoski, 3M Larry Krause, 3M Bill Bowden, Duracell Danny Xiao, USNanocorp Dan Branigan, INEEL Bob Minck, Ford Pierre Hovington, HydroQuebec Martin Simoneau, HydroQuebec Francis Wang, Guidant