| Growth and form of spherulites L Gránásy, T Pusztai, G Tegze, JA Warren, JF Douglas Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 72 (1 …, 2005 | 583 | 2005 |
| A general mechanism of polycrystalline growth L Gránásy, T Pusztai, T Börzsönyi, JA Warren, JF Douglas Nature Materials 3 (9), 645-650, 2004 | 396 | 2004 |
| Nucleation and bulk crystallization in binary phase field theory L Gránásy, T Börzsönyi, T Pusztai Physical review letters 88 (20), 206105, 2002 | 232 | 2002 |
| Multiphase solidification in multicomponent alloys U Hecht, L Gránásy, T Pusztai, B Böttger, M Apel, V Witusiewicz, L Ratke, ... Materials Science and Engineering: R: Reports 46 (1-2), 1-49, 2004 | 223 | 2004 |
| Modelling polycrystalline solidification using phase field theory L Gránásy, T Pusztai, JA Warren Journal of Physics: Condensed Matter 16 (41), R1205, 2004 | 203 | 2004 |
| Growth of'dizzy dendrites' in a random field of foreign particles L Granasy, T Pusztai, JA Warren, JF Douglas, T Börzsönyi, V Ferreiro Nature Materials 2 (2), 92-96, 2003 | 175 | 2003 |
| Phase field theory of heterogeneous crystal nucleation L Gránásy, T Pusztai, D Saylor, JA Warren Physical review letters 98 (3), 035703, 2007 | 168 | 2007 |
| Polymorphism, crystal nucleation and growth in the phase-field crystal model in 2D and 3D GI Tóth, G Tegze, T Pusztai, G Tóth, L Gránásy Journal of Physics: Condensed Matter 22 (36), 364101, 2010 | 141 | 2010 |
| Phase-field modeling of polycrystalline solidification: from needle crystals to spherulites—a review L Gránásy, L Rátkai, A Szállás, B Korbuly, GI Tóth, L Környei, T Pusztai Metallurgical and Materials Transactions A 45, 1694-1719, 2014 | 130 | 2014 |
| Advanced operator splitting-based semi-implicit spectral method to solve the binary phase-field crystal equations with variable coefficients G Tegze, G Bansel, GI Tóth, T Pusztai, Z Fan, L Gránásy Journal of Computational Physics 228 (5), 1612-1623, 2009 | 124 | 2009 |
| Diffusion-Controlled Anisotropic Growth of Stable and Metastable Crystal Polymorphs<? format?> in the Phase-Field Crystal Model G Tegze, L Gránásy, GI Tóth, F Podmaniczky, A Jaatinen, T Ala-Nissila, ... Physical review letters 103 (3), 035702, 2009 | 122 | 2009 |
| Heterogeneous crystal nucleation: the effect of lattice mismatch GI Tóth, G Tegze, T Pusztai, L Gránásy Physical review letters 108 (2), 025502, 2012 | 112 | 2012 |
| Phase-field modeling of crystal nucleation in undercooled liquids–A review L Gránásy, GI Tóth, JA Warren, F Podmaniczky, G Tegze, L Rátkai, ... Progress in Materials Science 106, 100569, 2019 | 109 | 2019 |
| Multiscale approach to CO2 hydrate formation in aqueous solution: Phase field theory and molecular dynamics. Nucleation and growth G Tegze, T Pusztai, G Tóth, L Gránásy, A Svandal, T Buanes, ... The Journal of chemical physics 124 (23), 2006 | 106 | 2006 |
| Phase field approach to heterogeneous crystal nucleation in alloys JA Warren, T Pusztai, L Környei, L Gránásy Physical Review B—Condensed Matter and Materials Physics 79 (1), 014204, 2009 | 104 | 2009 |
| Phase field theory of polycrystalline solidification in three dimensions T Pusztai, G Bortel, L Gránásy Europhysics Letters 71 (1), 131, 2005 | 100 | 2005 |
| Amorphous nucleation precursor in highly nonequilibrium fluids GI Tóth, T Pusztai, G Tegze, G Tóth, L Gránásy Physical Review Letters 107 (17), 175702, 2011 | 99 | 2011 |
| Phase field theory of crystal nucleation and polycrystalline growth: A review L Gránásy, T Pusztai, T Börzsönyi, G Tóth, G Tegze, JA Warren, ... Journal of materials research 21 (2), 309-319, 2006 | 96 | 2006 |
| Kinetics of solid hydrate formation by carbon dioxide: Phase field theory of hydrate nucleation and magnetic resonance imaging B Kvamme, A Graue, E Aspenes, T Kuznetsova, L Gránásy, G Tóth, ... Physical chemistry chemical physics 6 (9), 2327-2334, 2004 | 95 | 2004 |
| Interfacial properties deduced from nucleation experiments: A Cahn–Hilliard analysis L Gránásy, T Pusztai, PF James The Journal of chemical physics 117 (13), 6157-6168, 2002 | 92 | 2002 |
