Amit Misra

Professor and Department Chair

amitmis@umich.edu

3062B H.H. Dow

T: (734) 763-2445

Bio

Publications

Group Members

Research


Publications

  1. Yadav, S, Wang, J, Ramprasad, R, Misra, A, and Liu, X (2012). Structural rotation of Al under uniaxial compression: A first-principles predictionJournal of Applied Physics, 112(4).   (link)

  2. Zhang, R, Wang, J, Beyerlein, I, Misra, A, and Germann, T (2012). Atomic-scale study of nucleation of dislocations from fcc-bcc interfacesActa Materialia, 60(6-7):2855-2865.   (link)

  3. Zhang, X and Misra, A (2012). Superior thermal stability of coherent twin boundaries in nanotwinned metalsScripta Materialia, 66(11):860-865.   (link)

  4. Zhang, X, Fu, E, Li, N, Misra, A, Wang, Y, Shao, L, and Wang, H (2012). Design of radiation tolerant nanostructured metallic multilayersJournal of Engineering Materials and Technology, Transactions of the ASME, 134(4).   (link)

  5. Zhuo, M, Uberuaga, B, Yan, L, Fu, E, Dickerson, R, Wang, Y, Misra, A, Nastasi, M, and Jia, Q (2012). Radiation damage at the coherent anatase TiO 2 / SrTiO 3 interface under Ne ion irradiationJournal of Nuclear Materials, 429(1-3):177-184.   (link)

  6. Arman, B, Brandl, C, Luo, S, Germann, T, Misra, A, and Çaǧin, T (2011). Plasticity in Cu(111)/Cu46Zr54 glass nanolaminates under uniaxial compressionJournal of Applied Physics, 110(4).   (link)

  7. Bellou, A, Overman, C, Zbib, H, Bahr, D, and Misra, A (2011). Strength and strain hardening behavior of Cu-based bilayers and trilayersScripta Materialia, 64(7):641-644.   (link)

  8. Bhattacharyya, D, Mara, N, Dickerson, P, Hoagland, R, and Misra, A (2011). Compressive flow behavior of Al-TiN multilayers at nanometer scale layer thicknessActa Materialia, 59(10):3804-3816.   (link)

  9. Budiman, A, Li, N, Wei, Q, Baldwin, J, Xiong, J, Luo, H, Trugman, D, Jia, Q, Tamura, N, Kunz, M, Chen, K, and Misra, A (2011). Growth and structural characterization of epitaxial Cu/Nb multilayersThin Solid Films, 519(13):4137-4143.   (link)

  10. Csiszár, G, Balogh, L, Misra, A, Zhang, X, and Ungár, T (2011). The dislocation density and twin-boundary frequency determined by X-ray peak profile analysis in cold rolled magnetron-sputter deposited nanotwinned copperJournal of Applied Physics, 110(4).   (link)

  11. Csiszár, G, Misra, A, and Ungár, T (2011). Burgers vector types and the dislocation structures in sputter-deposited Cu-Nb multilayersMaterials Science and Engineering A, 528(22-23):6887-6895.   (link)

  12. Demkowicz, M, Anderoglu, O, Zhang, X, and Misra, A (2011). The influence of a'3 twin boundaries on the formation of radiation-induced defect clusters in nanotwinned CuJournal of Materials Research, 26(14):1666-1675.   (link)

  13. Demkowicz, M, Hoagland, R, Uberuaga, B, and Misra, A (2011). Influence of interface sink strength on the reduction of radiation-induced defect concentrations and fluxes in materials with large interface area per unit volumePhysical Review B - Condensed Matter and Materials Physics, 84(10).   (link)

  14. Di, Z, Bai, X, Wei, Q, Won, J, Hoagland, R, Wang, Y, Misra, A, Uberuaga, B, and Nastasi, M (2011). Tunable helium bubble superlattice ordered by screw dislocation networkPhysical Review B - Condensed Matter and Materials Physics, 84(5).   (link)

  15. Han, W, Misra, A, Mara, N, Germann, T, Baldwin, J, Shimada, T, and Luo, S (2011). Role of interfaces in shock-induced plasticity in Cu/Nb nanolaminatesPhilosophical Magazine, 91(32):4172-4185.   (link)

  16. Hopkins, P, Serrano, J, Phinney, L, Li, H, and Misra, A (2011). Boundary scattering effects during electron thermalization in nanoporous goldJournal of Applied Physics, 109(1).   (link)

  17. Li, H, Jiang, F, Ni, S, Li, L, Sha, G, Liao, X, Ringer, S, Choo, H, Liaw, P, and Misra, A (2011). Mechanical behaviors of as-deposited and annealed nanostructured Ni-Fe alloysScripta Materialia, 65(1):1-4.   (link)

  18. Li, N, Carter, J, Misra, A, Shao, L, Wang, H, and Zhang, X (2011). The influence of interfaces on the formation of bubbles in He-ion-irradiated Cu/Mo nanolayersPhilosophical Magazine Letters, 91(1):19-29.   (link)

  19. Li, N, Mara, N, Wang, Y, Nastasi, M, and Misra, A (2011). Compressive flow behavior of Cu thin films and Cu/Nb multilayers containing nanometer-scale helium bubblesScripta Materialia, 64(10):974-977.   (link)

  20. Li, N, Wang, J, Huang, J, Misra, A, and Zhang, X (2011). Influence of slip transmission on the migration of incoherent twin boundaries in epitaxial nanotwinned CuScripta Materialia, 64(2):149-152.   (link)

  21. Li, N, Wang, J, Misra, A, Zhang, X, Huang, J, and Hirth, J (2011). Twinning dislocation multiplication at a coherent twin boundaryActa Materialia, 59(15):5989-5996.   (link)

  22. Li, N, Wang, J, Zhang, X, and Misra, A (2011). In-situ TEM study of dislocation-twin boundaries interaction in nanotwinned Cu filmsJOM, 63(9):62-65+73.   (link)

  23. Perea, D, Li, N, Dickerson, R, Misra, A, and Picraux, S (2011). Controlling heterojunction abruptness in VLS-grown semiconductor nanowires via in situ catalyst alloyingNano Letters, 11(8):3117-3122.   (link)

  24. Robertson, I, Schuh, C, Vetrano, J, Browning, N, Field, D, Jensen, D, Miller, M, Baker, I, Dunand, D, Dunin-Borkowski, R, Kabius, B, Kelly, T, Lozano-Perez, S, Misra, A, Rohrer, G, Rollett, A, Taheri, M, Thompson, G, Uchic, M, Wang, X, and Was, G (2011). Towards an integrated materials characterization toolboxJournal of Materials Research, 26(11):1341-1383.   (link)

  25. Wang, J and Misra, A (2011). An overview of interface-dominated deformation mechanisms in metallic multilayersCurrent Opinion in Solid State and Materials Science, 15(1):20-28.   (link)

  26. Wang, J, Beyerlein, I, Mara, N, Misra, A, and Tome, C (2011). Deformation twinning mechanisms in FCC and HCP metalsIn: , pp. 88-91.   (link)

  27. Wang, J, Beyerlein, I, Misra, A, Valone, S, and Germann, T (2011). Atomistic modeling of dislocation-interface interactionsIn: , pp. 39-46.   (link)

  28. Wang, J, Hoagland, R, Liu, X, and Misra, A (2011). The influence of interface shear strength on the glide dislocation- interface interactionsActa Materialia, 59(8):3164-3173.   (link)

  29. Wang, J, Misra, A, and Hirth, J (2011). Shear response of Σ3112 twin boundaries in face-centered-cubic metalsPhysical Review B - Condensed Matter and Materials Physics, 83(6).   (link)

  30. Wei, Q, Li, N, Mara, N, Nastasi, M, and Misra, A (2011). Suppression of irradiation hardening in nanoscale V/Ag multilayersActa Materialia, 59(16):6331-6340.   (link)

  31. Wei, Q, Liu, X, and Misra, A (2011). Observation of continuous and reversible bcc-fcc phase transformation in Ag/V multilayersApplied Physics Letters, 98(11).   (link)

  32. Wei, Q, Wang, Y, Nastasi, M, and Misra, A (2011). Nucleation and growth of bubbles in He ion-implanted V/Ag multilayersPhilosophical Magazine, 91(4):553-573.   (link)

  33. Zhernenkov, M, Jablin, M, Misra, A, Nastasi, M, Wang, Y, Demkowicz, M, Baldwin, J, and Majewski, J (2011). Trapping of implanted He at Cu/Nb interfaces measured by neutron reflectometryApplied Physics Letters, 98(24).   (link)

  34. Zhuo, M, Fu, E, Yan, L, Wang, Y, Zhang, Y, Dickerson, R, Uberuaga, B, Misra, A, Nastasi, M, and Jia, Q (2011). Interface-enhanced defect absorption between epitaxial anatase TiO 2 film and single crystal SrTiO3Scripta Materialia, 65(9):807-810.   (link)

  35. Anderoglu, O, Misra, A, Wang, J, Hoagland, R, Hirth, J, and Zhang, X (2010). Plastic flow stability of nanotwinned Cu foilsInternational Journal of Plasticity, 26(6):875-886.   (link)

  36. Bhattacharyya, D, Liu, X, Genc, A, Fraser, H, Hoagland, R, and Misra, A (2010). Heterotwin formation during growth of nanolayered Al-TiN compositesApplied Physics Letters, 96(9).   (link)

  37. Bhattacharyya, D, Mara, N, Dickerson, P, Hoagland, R, and Misra, A (2010). A transmission electron microscopy study of the deformation behavior underneath nanoindents in nanoscale Al-TiN multilayered compositesPhilosophical Magazine, 90(13):1711-1724.   (link)

  38. Demkowicz, M, Bhattacharyya, D, Usov, I, Wang, Y, Nastasi, M, and Misra, A (2010). The effect of excess atomic volume on He bubble formation at fcc-bcc interfacesApplied Physics Letters, 97(16).   (link)

  39. Fu, E, Misra, A, Wang, H, Shao, L, and Zhang, X (2010). Interface enabled defects reduction in helium ion irradiated Cu/V nanolayersJournal of Nuclear Materials, 407(3):178-188.   (link)

  40. Gibson, J, McCall, S, Bauer, E, Fanghaenel, T, Soderholm, L, Devanathan, R, Misra, A, Trautmann, C, and Wirth, B (2010). Materials Research Society Symposium Proceedings: PrefaceIn: , vol. 1264, pp. xi-xii.   (link)

  41. Li, H and Misra, A (2010). A dramatic increase in the strength of a nanoporous Pt-Ni alloy induced by annealingScripta Materialia, 63(12):1169-1172.   (link)

  42. Li, N, Wang, J, Huang, J, Misra, A, and Zhang, X (2010). In situ TEM observations of room temperature dislocation climb at interfaces in nanolayered Al/Nb compositesScripta Materialia, 63(4):363-366.   (link)

  43. Liu, X, Hoagland, R, Wang, J, Germann, T, and Misra, A (2010). The influence of dilute heats of mixing on the atomic structures, defect energetics and mechanical properties of fcc-bcc interfacesActa Materialia, 58(13):4549-4557.   (link)

  44. Manjeri, R, Qiu, S, Mara, N, Misra, A, and Vaidyanathan, R (2010). Superelastic response of [111] and [101] oriented NiTi micropillarsJournal of Applied Physics, 108(2).   (link)

  45. Mara, N, Bhattacharyya, D, Dickerson, P, Hoagland, R, and Misra, A (2010). Ultrahigh strength and ductility of Cu-Nb nanolayered compositesMaterials Science Forum, 633-634:647-653.   (link)

  46. Mara, N, Bhattacharyya, D, Hirth, J, Dickerson, P, and Misra, A (2010). Mechanism for shear banding in nanolayered compositesApplied Physics Letters, 97(2).   (link)

  47. Misra, A and Thilly, L (2010). Structural metals at extremesMRS Bulletin, 35(12):965-972.   (link)

  48. Wang, J, Li, N, Anderoglu, O, Zhang, X, Misra, A, Huang, J, and Hirth, J (2010). Detwinning mechanisms for growth twins in face-centered cubic metalsActa Materialia, 58(6):2262-2270.   (link)

  49. Wei, Q and Misra, A (2010). Transmission electron microscopy study of the microstructure and crystallographic orientation relationships in V/Ag multilayersActa Materialia, 58(14):4871-4882.   (link)

  50. Zhang, X, Fu, E, Misra, A, and Demkowicz, M (2010). Interface-enabled defect reduction in He ion irradiated metallic multilayersJOM, 62(12):75-78.   (link)

  51. Anderoglu, O, Misra, A, Ronning, F, Wang, H, and Zhang, X (2009). Significant enhancement of the strength-to-resistivity ratio by nanotwins in epitaxial Cu filmsJournal of Applied Physics, 106(2).   (link)

  52. Antoniou, A, Bhattacharrya, D, Baldwin, J, Goodwin, P, Nastasi, M, Picraux, S, and Misra, A (2009). Controlled nanoporous Pt morphologies by varying deposition parametersApplied Physics Letters, 95(7).   (link)

  53. Aydiner, C, Brown, D, Mara, N, Almer, J, and Misra, A (2009). In situ x-ray investigation of freestanding nanoscale Cu-Nb multilayers under tensile loadApplied Physics Letters, 94(3).   (link)

  54. Bhattacharyya, D, Cerreta, E, McCabe, R, Niewczas, M, Gray III, G, Misra, A, and Tomé, C (2009). Origin of dislocations within tensile and compressive twins in pure textured ZrActa Materialia, 57(2):305-315.   (link)

  55. Bhattacharyya, D, Mara, N, Dickerson, P, Hoagland, R, and Misra, A (2009). Transmission electron microscopy study of the deformation behavior of Cu/Nb and Cu/Ni nanoscale multilayers during nanoindentationJournal of Materials Research, 24(3):1291-1302.   (link)

  56. Fu, E, Carter, J, Swadener, G, Misra, A, Shao, L, Wang, H, and Zhang, X (2009). Size dependent enhancement of helium ion irradiation tolerance in sputtered Cu/V nanolaminatesJournal of Nuclear Materials, 385(3):629-632.   (link)

  57. Li, H, Misra, A, Baldwin, J, and Picraux, S (2009). Synthesis and characterization of nanoporous Pt-Ni alloysApplied Physics Letters, 95(20).   (link)

  58. Li, H, Misra, A, Horita, Z, Koch, C, Mara, N, Dickerson, P, and Zhu, Y (2009). Strong and ductile nanostructured Cu-carbon nanotube compositeApplied Physics Letters, 95(7).   (link)

  59. Li, H, Misra, A, Zhu, Y, Horita, Z, Koch, C, and Holesinger, T (2009). Processing and characterization of nanostructured Cu-carbon nanotube compositesMaterials Science and Engineering A, 523(1-2):60-64.   (link)

  60. Li, N, Fu, E, Wang, H, Carter, J, Shao, L, Maloy, S, Misra, A, and Zhang, X (2009). He ion irradiation damage in Fe/W nanolayer filmsJournal of Nuclear Materials, 389(2):233-238.   (link)

  61. Li, N, Martin, M, Anderoglu, O, Misra, A, Shao, L, Wang, H, and Zhang, X (2009). He ion irradiation damage in Al/Nb multilayersJournal of Applied Physics, 105(12).   (link)

  62. Mara, N, Bhattacharyya, D, Dickerson, P, Hoagland, R, and Misra, A (2009). TEM characterization of deformation and failure mechanisms in 40 nm and 5nm cu/nb nanolayed micro compression pillarsMicroscopy and Microanalysis, 15(SUPPL. 2):352-353.   (link)

  63. McCabe, R, Proust, G, Cerreta, E, and Misra, A (2009). Quantitative analysis of deformation twinning in zirconiumInternational Journal of Plasticity, 25(3):454-472.   (link)

  64. Misra, A, Zhang, X, Demkowicz, M, Hoagland, R, and Nastasi, M (2009). Design of nano-composites for ultra-high strengths and radiation damage toleranceIn: , vol. 1188, pp. 167-174.   (link)

  65. Wang, J, Anderoglu, O, Hirth, J, Misra, A, and Zhang, X (2009). Dislocation structures of σ3 112 twin boundaries in face centered cubic metalsApplied Physics Letters, 95(2).   (link)

  66. Wang, J, Hoagland, R, and Misra, A (2009). Mechanics of nanoscale metallic multilayers: From atomic-scale to micro-scaleScripta Materialia, 60(12):1067-1072.   (link)

  67. Wang, J, Hoagland, R, and Misra, A (2009). Room-temperature dislocation climb in metallic interfacesApplied Physics Letters, 94(13).   (link)

  68. Anderoglu, O, Misra, A, Wang, H, and Zhang, X (2008). Thermal stability of sputtered Cu films with nanoscale growth twinsJournal of Applied Physics, 103(9).   (link)

  69. Anderoglu, O, Misra, A, Wang, H, Ronning, F, Hundley, M, and Zhang, X (2008). Epitaxial nanotwinned Cu films with high strength and high conductivityApplied Physics Letters, 93(8).   (link)

  70. Bhattacharyya, D, Mara, N, Dickerson, P, Hoagland, R, and Misra, A (2008). TEM characterization of nanoindentation in nanoscale metallic multilayersMicroscopy and Microanalysis, 14(SUPPL. 2):412-413.   (link)

  71. Bhattacharyya, D, Mara, N, Hoagland, R, and Misra, A (2008). Nanoindentation and microstructural studies of Al/TiN multilayers with unequal volume fractionsScripta Materialia, 58(11):981-984.   (link)

  72. Fu, E, Li, N, Misra, A, Hoagland, R, Wang, H, and Zhang, X (2008). Mechanical properties of sputtered Cu/V and Al/Nb multilayer filmsMaterials Science and Engineering A, 493(1-2):283-287.   (link)

  73. Hattar, K, Demkowicz, M, Misra, A, Robertson, I, and Hoagland, R (2008). Arrest of He bubble growth in Cu-Nb multilayer nanocompositesScripta Materialia, 58(7):541-544.   (link)

  74. Li, H, Liaw, P, Choo, H, and Misra, A (2008). Effect of grain orientation on ductility in a nanocrystalline Ni-Fe alloyApplied Physics Letters, 93(5).   (link)

  75. Mara, N, Bhattacharyya, D, Dickerson, P, Hoagland, R, and Misra, A (2008). Deformability of ultrahigh strength 5 nm Cu/Nb nanolayered compositesApplied Physics Letters, 92(23).   (link)

  76. Mara, N, Bhattacharyya, D, Hoagland, R, and Misra, A (2008). Tensile behavior of 40 nm Cu/Nb nanoscale multilayersScripta Materialia, 58(10):874-877.   (link)

  77. Mara, N, Misra, A, Hoagland, R, Sergueeva, A, Tamayo, T, Dickerson, P, and Mukherjee, A (2008). High-temperature mechanical behavior/microstructure correlation of Cu/Nb nanoscale multilayersMaterials Science and Engineering A, 493(1-2):274-282.   (link)

  78. Misra, A (2008). Twinning in nanocrystalline metalsJOM, 60(9):59.   (link)

  79. Misra, A, Demkowicz, M, Wang, J, and Hoagland, R (2008). The multiscale modeling of plastic deformation in metallic nanolayered compositesJOM, 60(4):39-42.   (link)

  80. Raab, G, Valiev, R, Gunderov, D, Lowe, T, Misra, A, and Zhu, Y (2008). Long-length ultrafine-grained titanium rods produced by ECAP- conformMaterials Science Forum, 584-586 PART 1:80-85.   (link)

  81. Wang, J, Hoagland, R, and Misra, A (2008). Phase transition and dislocation nucleation in Cu-Nb layered composites during physical vapor depositionJournal of Materials Research, 23(4):1009-1014.   (link)

  82. Wang, J, Hoagland, R, Hirth, J, and Misra, A (2008). Atomistic modeling of the interaction of glide dislocations with "weak" interfacesActa Materialia, 56(19):5685-5693.   (link)

  83. Wang, J, Hoagland, R, Hirth, J, and Misra, A (2008). Atomistic simulations of the shear strength and sliding mechanisms of copper-niobium interfacesActa Materialia, 56(13):3109-3119.   (link)

  84. Yu-Zhang, K, Embury, J, Han, K, and Misra, A (2008). Transmission electron microscopy investigation of the atomic structure of interfaces in nanoscale Cu-Nb multilayersPhilosophical Magazine, 88(17):2559-2567.   (link)

  85. Zhang, X, Anderoglu, O, Hoagland, R, and Misra, A (2008). Nanoscale growth twins in sputtered metal filmsJOM, 60(9):75-78.   (link)

  86. Akasheh, F, Zbib, H, Hirth, J, Hoagland, R, and Misra, A (2007). Interactions between glide dislocations and parallel interfacial dislocations in nanoscale strained layersJournal of Applied Physics, 102(3).   (link)

  87. Akasheh, F, Zbib, H, Hirth, J, Hoagland, R, and Misra, A (2007). Dislocation dynamics analysis of dislocation intersections in nanoscale metallic multilayered compositesJournal of Applied Physics, 101(8).   (link)

  88. Aydiner, C, Brown, D, Misra, A, Mara, N, Wang, Y, Wall, J, and Almer, J (2007). Residual strain and texture in free-standing nanoscale Cu-Nb multilayersJournal of Applied Physics, 102(8).   (link)

  89. Donohue, A, Spaepen, F, Hoagland, R, and Misra, A (2007). Suppression of the shear band instability during plastic flow of nanometer-scale confined metallic glassesApplied Physics Letters, 91(24).   (link)

  90. Kaschner, G, Tomé, C, McCabe, R, Misra, A, Vogel, S, and Brown, D (2007). Exploring the dislocation/twin interactions in zirconiumMaterials Science and Engineering A, 463(1-2):122-127.   (link)

  91. Lima, A, Zhang, X, Misra, A, Booth, C, Bauer, E, and Hundley, M (2007). Length scale effects on the electronic transport properties of nanometric Cu/Nb multilayersThin Solid Films, 515(7-8):3574-3579.   (link)

  92. Mara, N, Tamayo, T, Sergueeva, A, Zhang, X, Misra, A, and Mukherjee, A (2007). The effects of decreasing layer thickness on the high temperature mechanical behavior of Cu / Nb nanoscale multilayersThin Solid Films, 515(6):3241-3245.   (link)

  93. Misra, A and Hoagland, R (2007). Plastic flow stability of metallic nanolaminate compositesJournal of Materials Science, 42(5):1765-1771.   (link)

  94. Misra, A, Demkowicz, M, Zhang, X, and Hoagland, R (2007). The radiation damage tolerance of ultra-high strength nanolayered compositesJOM, 59(9):62-65.   (link)

  95. Zhang, X, Anderoglu, O, Misra, A, and Wang, H (2007). Influence of deposition rate on the formation of growth twins in sputter-deposited 330 austenitic stainless steel filmsApplied Physics Letters, 90(15).   (link)

  96. Zhang, X, Li, N, Anderoglu, O, Wang, H, Swadener, J, Höchbauer, T, Misra, A, and Hoagland, R (2007). Nanostructured Cu/Nb multilayers subjected to helium ion-irradiationNuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 261(1-2 SPEC. ISS.):1129-1132.   (link)

  97. Zhang, X, Schulze, R, Wang, H, and Misra, A (2007). Thermal stability of sputtered Cu/304 stainless steel multilayer filmsJournal of Applied Physics, 101(12).   (link)

  98. Hoagland, R, Hirth, J, and Misra, A (2006). On the role of weak interfaces in blocking slip in nanoscale layered compositesPhilosophical Magazine, 86(23):3537-3558.   (link)

  99. Hoagland, R, Hirth, J, and Misra, A (2006). Deformation and failure mechanisms in metallic nanolayered compositesIn: , pp. 701-702.   (link)

  100. Höchbauer, T, Misra, A, Nastasi, M, Mayer, J, and Ensinger, W (2006). Formation of hydrogen complexes in proton implanted silicon and their influence on the crystal damageNuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 242(1-2):623-626.   (link)