1. 1.S. Jiao, and Y. Kulkarni, Radiation tolerance and strengthening mechanisms in nanotwinned FCC metals, To be submitted (2014).


  1. 2.F. Hammami, and Y. Kulkarni, Size effects in twinned nanopillars, To be submitted (2014).


  1. 3.S. Tang, and Y. Kulkarni, The interplay between strain and size effects on the thermal conductance of grain boundaries in graphene, Applied Physics Letters, 103 (2013) 213113.


  1. 4.D. Chen, and Y. Kulkarni, Elucidating the kinetics of twin boundaries from thermal fluctuations, MRS Communications, 3 (2013) 241.


  1. 5.J. Bezares, S. Jiao, Y. Liuc, D. Bufford, L. Lu, X. Zhang, Y. Kulkarni and R.J. Asaro, Indentation of nano-twinned FCC metals: Implications for nano-twin stability, Acta Materialia,  60 (2012) 4623.


  1. 6.Y. Kulkarni, Coarse-graining of atomistic description at finite temperature using formal asymptotics, Int. J. Multiscale Computational Engg., 10 (2012) 13. Invited.


  1. 7.T. Sinha, and Y. Kulkarni, Anomalous deformation twinning in FCC metals at high temperatures, J. Applied Physics, 109 (2011) 114315.


  1. 8.Y. Kulkarni, and R.J. Asaro, Are some nano-twinned FCC metals optimal for strength and grain stability, Acta Materialia, 57 (2009) 4835.


  1. 9.Y. Kulkarni, R.J. Asaro, and D. Farkas, Are nano-twinned structures in FCC metals optimal for strength, ductility, and grain stability, Scripta Materialia, 60 (2009) 532.


  1. 10.R.J. Asaro, D. Farkas, and Y. Kulkarni, The Soret effect in diffusion in crystals, Acta Materialia, 56 (2008) 1243.


  1. 11.R.J. Asaro, and Y. Kulkarni, Are rate sensitivity and strength effected by cross-slip in nano-twinned FCC metals, Scripta Materialia, 58 (2008) 389.


  1. 12.Y. Kulkarni, J. Knap, and M. Ortiz, A variational approach to coarse-graining of equilibrium and non-equilibrium atomistic description at finite temperature, J Mech. Phys. Solids, 56 (2008) 1417.