| Grain boundary plane orientation fundamental zones and structure-property relationships ER Homer, S Patala, JL Priedeman Scientific reports 5 (1), 15476, 2015 | 109 | 2015 |
| Improved representations of misorientation information for grain boundary science and engineering S Patala, JK Mason, CA Schuh Progress in Materials Science 57 (8), 1383-1425, 2012 | 109 | 2012 |
| Elastic strain energy effects in faceted decahedral nanoparticles S Patala, LD Marks, M Olvera de la Cruz The Journal of Physical Chemistry C 117 (3), 1485-1494, 2013 | 65 | 2013 |
| Symmetries in the representation of grain boundary-plane distributions S Patala, CA Schuh Philosophical Magazine 93 (5), 524-573, 2013 | 64 | 2013 |
| Thermodynamic analysis of multiply twinned particles: surface stress effects S Patala, LD Marks, M Olvera de la Cruz The Journal of Physical Chemistry Letters 4 (18), 3089-3094, 2013 | 46 | 2013 |
| Vacancy diffusion in multi-principal element alloys: The role of chemical disorder in the ordered lattice SL Thomas, S Patala Acta Materialia 196, 144-153, 2020 | 43 | 2020 |
| A simple faceting model for the interfacial and cleavage energies of Σ3 grain boundaries in the complete boundary plane orientation space AD Banadaki, S Patala Computational Materials Science 112, 147-160, 2016 | 43 | 2016 |
| A three-dimensional polyhedral unit model for grain boundary structure in fcc metals AD Banadaki, S Patala npj Computational Materials 3 (1), 13, 2017 | 42 | 2017 |
| Understanding grain boundaries–The role of crystallography, structural descriptors and machine learning S Patala Computational Materials Science 162, 281-294, 2019 | 34 | 2019 |
| An efficient Monte Carlo algorithm for determining the minimum energy structures of metallic grain boundaries AD Banadaki, MA Tschopp, S Patala Computational Materials Science 155, 466-475, 2018 | 32 | 2018 |
| Short-range order structure motifs learned from an atomistic model of a Zr50Cu45Al5 metallic glass JJ Maldonis, AD Banadaki, S Patala, PM Voyles Acta Materialia 175, 35-45, 2019 | 31 | 2019 |
| A continuous and one-to-one coloring scheme for misorientations S Patala, CA Schuh Acta materialia 59 (2), 554-562, 2011 | 31 | 2011 |
| A high-throughput technique for determining grain boundary character non-destructively in microstructures with through-thickness grains M Seita, M Volpi, S Patala, I McCue, CA Schuh, MV Diamanti, ... Npj Computational Materials 2 (1), 1-5, 2016 | 25 | 2016 |
| An efficient algorithm for computing the primitive bases of a general lattice plane AD Banadaki, S Patala Journal of Applied Crystallography 48 (2), 585-588, 2015 | 20 | 2015 |
| Application of Monte Carlo techniques to grain boundary structure optimization in silicon and silicon-carbide M Guziewski, AD Banadaki, S Patala, SP Coleman Computational Materials Science 182, 109771, 2020 | 19 | 2020 |
| Mapping 180 polar domains using electron backscatter diffraction and dynamical scattering simulations MJ Burch, CM Fancher, S Patala, M De Graef, EC Dickey Ultramicroscopy 173, 47-51, 2017 | 18 | 2017 |
| Thermodynamic stabilization of precipitates through interface segregation: Chemical effects SB Kadambi, S Patala Physical Review Materials 1 (4), 043604, 2017 | 16 | 2017 |
| A phase-field approach for modeling equilibrium solute segregation at the interphase boundary in binary alloys SB Kadambi, F Abdeljawad, S Patala Computational Materials Science 175, 109533, 2020 | 13 | 2020 |
| Point-pattern matching technique for local structural analysis in condensed matter AD Banadaki, JJ Maldonis, PM Voyles, S Patala arXiv preprint arXiv:1811.06098, 2018 | 8 | 2018 |
| The topology of homophase misorientation spaces S Patala, CA Schuh Philosophical Magazine 91 (10), 1489-1508, 2011 | 8 | 2011 |
Christopher A SchuhNorthwestern University在 northwestern.edu 的电子邮件经过验证
