Srikanth Patala

Assistant Professor

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Research will be focused on developing computational and analytical techniques to quantify the structure-property relationships in complex heterogeneous materials. Specific areas of interest currently include the analysis of interfacial properties; the role of interfaces in influencing the mechanical and transport-related phenomena in structural materials; statistical analysis and characterization of complex microstructures. We utilize state-of-art experimental techniques to quantify 3D microstructural features and incorporate these aspects in a variety of computational methods to facilitate more accurate modeling of both processing-structure and structure-property relationships. These characterization and computational methods will provide essential tools, which are expected to be an integral part of the design process involved in microstructure optimization.

Dr. Patala’s research interests include structural characterization and quantification of structure-property relationships across multiple length scales; statistical analysis of defects and their interactions in polycrystalline materials; and in developing inverse design principles for optimizing performance in structural and functional materials.


Ph.D. 2011

Materials Science and Engineering

Massachusetts Institute of Technology

M.S. 2008

Materials Science and Engineering

Massachusetts Institute of Technology

B. Tech 2005

Metallurgical and Materials Engineering

Indian Institute of Technology Madras

Honors and Awards

  • AFOSR Young Investigator Program Award, 2016
  • NSF Early CAREER Award, 2016
  • James Clerk Maxwell Young Writers Prize, Philosophical Magazine & Letter, 2011
  • Outstanding PhD Thesis Research Award, Department of Materials Science and Engineering, MIT, 2011


Thermodynamic stabilization of precipitates through interface segregation: Chemical effects
Kadambi, S. B., & Patala, S. (2017), Physical Review Materials, 1(4).
Approximating coincidence - turning a new page for bicrystallography
Patala, S. (2017), Acta Crystallographica A-Foundation and Advances, 73, 85-86.
Mapping 180 degrees polar domains using electron backscatter diffraction and dynamical scattering simulations
Burch, M. J., Fancher, C. M., Patala, S., De Graef, M., & Dickey, E. C. (2017), Ultramicroscopy, 173, 47-51.
A simple faceting model for the interfacial and cleavage energies of Sigma 3 grain boundaries in the complete boundary plane orientation space
Banadaki, A. D., & Patala, S. (2016), Computational Materials Science, 112, 147-160.
Grain boundary plane orientation fundamental zones and structure-property relationships
Homer, E. R., Patala, S., & Priedeman, J. L. (2015), Scientific Reports, 5.
An efficient algorithm for computing the primitive bases of a general lattice plane
Banadaki, A. D., & Patala, S. (2015), Journal of Applied Crystallography, 48, 585-588.

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