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46. M. Palumbo, C. Papandrea, L. Battezzati, J. Mater. Sci. 40, 2431 (2005). 47.* H. Vehkamaki, "Classical nucleation theory in multicomponent systems" (Springer Verlag, Berlin, 2006) p. 155. 48.* D.M. Herlach, P. Galenko, D. Holland-Moritz, Metastable Solids from Undercooled Melts (Pergamon/Elsevier, Amsterdam, 2007) p. 190. 49. M. Palumbo, L. Battezzati, CALPHAD 32, 295 (2008). 50. L. Zhang, L.Q. Chen, Q. Du, J. Sci. Comput. 37, 89 (2008). 51. Z. Xu, P. Meakin, A.M. Tartakovsky, Phys. Rev. E. 79, 036702 (2009). 52. H. Emmerich, J. Phys.: Condens. Matter 21, 460301 (2009). 53. M. Schrader, P. Virnau, D. Winter, T. Zykova-Timan, K. Binder, Eur. Phys. J.-Spec. Topics 177, 103 (2009). 54.* K.F. Kelton, A.L. Greer, Nucleation in condensed matter. Pergamon Materials Series Vol. 15 (Elsevier, Amsterdam, 2010) Chap. 4, p. 85 & Appendix, p. 697. 55. W. Yang, F. Liu, H.F. Wang, B.P. Lu, G.C. Yang. J. Alloys and Compounds 509, 2903 (2011). 56. K. Kuribayashi, M.S.V. Kumar, J. Jpn. Soc. Microgravity Appl. 28, S68-S71 (2011). 57. W. Yang, F. Liu, G.C. Yang, Z.F. Xu, J.H. Wang, Z.T. Wang, Thermochim. Acta 527, 47 (2012). 58. P. Pirzadeh, E.N. Beaudoin, P.G. Kusalik, Cryst. Growth Des. 12, 124-128 (2012). DOI: 10.1021/cg200861e. 60.* K.F. Kelton, A.L. Greer, Solidification of Containerless Undercooled Melts. Eds. D. M. Herlach and D. M. Matson (Wiley-VCH GmbH & KGaA, Weinheim, 2012) ISBN 978-3-527-33122-2, Chap. 5. 61. Z. Guo, A.C. Burley, K.W. Koelling, I. Kusaka, D.L. Tomasko, J. Appl. Polymer Sci. 125, 2170-2186 (2012). 62. K. Kuriyabashi, M.S.V. Kumar, “Crystallographic Stability of Metastable Phase Formed by Containerless Processing in REFeO3 (RE: Rare-Earth Element)”, in Materials Research in Microgravity 2012 (Marshall Space Flight Center, NASA/CP-2012-217466), pp. 128-135 (2012). Document ID 20120015589. 1.* T. Volkmann, PhD Thesis (Ruhr-Universität, Bochum, 1994). 2.* X. Orlhac, PhD Thesis, “Thermal Stability of the French Nuclear Waste Glass - Long Term Behavior Modeling” (Universite de Montpellier II, Montpellier, 2000). 3.* L. Zhang, PhD Thesis, “Phase field model for the nucleation in solis state phase transformations: theories, algorithms and application.” (Pennsylvania State University, Ann Arbor, 2009). 4.* S. Klein, PhD Thesis, “Nucleation in undercooled melts of pure zirconium and zirconium based alloys.” (Ruhr-Universität, Bochum, 2010). 5.* A.C. Burley, PhD Thesis, “Toward a Fundamental Understanding of Bubble Nucleation in Polymer Foaming” (The Ohio State University, Columbus, 2012).
47. L. Gránásy: Diffuse interface approach to vapour condensation. Europhys. Lett. 24, 121-126 (1993). IF: 2.776 *** 1. D. M. Herlach, Mater. Sci. Eng. R12 (1994) 177. 2. R. Strey et al., J. Phys. Chem. 98 (1994) 7748. 3. Y. Viisanen, R. Strey, J. Chem. Phys. 101 (1994) 7835. 4. A. Laaksonen, V. Talanquer, D.W. Oxtoby, Ann. Rev. Phys. Chem. 46 (1995) 489-524. 5. V. Talanquer, D. W. Oxtoby, J. Phys. Chem. 99 (1995) 2865. 6. T.Volkmann, W. Löser, D.M. Herlach, Mater. Metall. Trans. 28A (1997) 453. 7. T.Volkmann, W. Löser, D.M. Herlach, Mater. Metall. Trans. 28A (1997) 461. 8. D. M. Herlach, Mater. Sci. Eng. A226, 348 (1997). 9. L.S. Bartell, Annu. Rev. Phys. Chem. 49, 43 (1998). 10. P. Santikary, K.E. Kinney, L.S. Bartell, J. Phys. Chem. A102, 10324 (1998). 11. L.S. Bartell, J. Huang, Inorg. Mater. B35, 571 (1999). 12. Y. Chushak, P. Santikary, L.S. Bartell, J. Phys. Chem. A103, 5636 (1999). 13. J.D. Gunton, J. Stat. Phys. 95, 903 (1999). 14.* D. Kashchiev, Nucleation: Basic Theory with Applications (Butterworth-Heinemann, Oxford, 2000) p. 97. 15.* B. Kvamme, Proc. of Int. Symp. on Marine Engineering, Tokyo 2000, Vol. I., p. 106. 16. H.S. Deng, J.F. Huang, J Solid State Chem. 159, 10 (2001). 17. J. Wolk, R. Strey, J. Phys. Chem. B 105, 11683 (2001). 18.* B. Kvamme, Proc. Int. Offshore and Polar Engineering Conf. 2001, Vol. I., p. 498. 19.* B. Kvamme, Proc. Int. Offshore and Polar Engineering Conf. 2001, Vol. I., p. 508. 20. B. Kvamme, Int. J. Offshore and Polar Engineering 12, 256 (2002). 21. J.F. Huang, L.S. Bartell, J. Phys. Chem. A 106, 2404 (2002). 22. M.H. Ma, W.Q. Lu, J.F. Huang, J. Solid State Chem. 165, 289 (2002). 23. X. Li, J.F. Huang, J. Solid State Chem. 176, 234 (2003). 24. X. Li, J.F. Huang, Chinese J. Chem. 21, 1543 (2003). 25. J. Huang, L. S. Bartell, J. Solid State Chem. 177, 1529 (2004). 26. G. Wilemski, J-S. Li, J. Chem. Phys. 121, 7821 (2004). 27. T. Volkmann, D. M. Herlach, Steel Res. International 78, 426 (2007). 28. H. Emmerich, Adv. Phys. 57, 1 (2008). 29.* P. Labastie, F. Calvo, Nanomaterials and Nanochemistry, eds. C. Brechignac, P. Houdy, M. Lahmani (ISBN 3540729925, 9783540729921; Springer, 2008) p. 55 30. Z. Xu, P. Meakin, A.M. Tartakovsky, Phys. Rev. E. 79, 036702 (2009). 31. H. Emmerich, J. Phys.: Condens. Matter 21, 464103 (2009). 32.* F. Calvo, P. Parneix, Handbook of Nanophysics 2: Clusters and Fullerenes, ed. K.D. Sattler (CRC Press, Taylor & Francis Group, Boca Raton, 2011), Chap. 15, pp. 15.1-15.27. 33.* P.Parneix, F. Calvo, EPJ Web of Conferences 18, 03003 (2011). DOI: 10.1051/epjconf/20111803003 34. Z. Guo, A.C. Burley, K.W. Koelling, I. Kusaka, D.L. Tomasko, J. Appl. Polymer Sci. 125, 2170-2186 (2012). 1.* T. Volkmann, PhD Thesis (Ruhr-Universität, Bochum, 1994). 2.* A.C. Burley, PhD Thesis, “Toward a Fundamental Understanding of Bubble Nucleation in Polymer Foaming” (The Ohio State University, Columbus, 2012).
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89.* D.M. Herlach, W. Bender, L. Gr
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91. L. Gránásy: Cahn-Hilliard-typ
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93. T. Börzsönyi, T. Tóth-Katona
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95. L. Gránásy, D.W. Oxtoby: Cahn
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97.* L. Gránásy, T. Börzsöny, T
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99. T. Börzsönyi, T. Tóth-Katona
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101.* L. Gránásy, Z. Jurek, D.W.
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103. L. Gránásy, P.F. James: Nucl
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104.* L. Gránásy, T. Börzsönyi,
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106.* B. Vinet, C. Berne, P.J. Desr
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108. L. Gránásy, T. Pusztai, P.F.
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40. J.J. Li, J.C. Wang, G.C. Yang,
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110.* L. Gránásy, T. Börzsönyi,
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112. L. Gránásy, T. Pusztai: Diff
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114. M. C. Weinberg, W. H. Poisl, L
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116. L. Gránásy, T. Pusztai, J. A
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117. L. Gránásy, T. Pusztai, G. T
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118. D. Lewis, T. Pusztai, L. Grán
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120. B. Kvamme, A. Graue, E. Aspene
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122.* L. Gránásy, T. Pusztai, G.
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37. S. van Teeffelen, C.N. Likos, H
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124. U. Hecht, L. Gránásy, T. Pus
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125. L. Gránásy, T. Pusztai, T. B
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80. P. Meakin, B. Jamtveit, Proc. R
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5.* R. Siquieri, PhD Thesis: “The
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127. L. Gránásy, T. Pusztai, T. B
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40. D. Wang, T. Shi, J. Chen, L. An
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(2012). 118.* Y. Cui, A.T. Paxson,
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130. T. Pusztai , G. Bortel, L. Gr
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132. G. Tegze, T. Pusztai, L. Grán
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133. A. Svandal, B. Kvamme L. Grán
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1.* M. Zhang, PhD Thesis: “Crysta
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136.* L. Gránásy, T. Pusztai, T.
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138.* T. Pusztai, G. Bortel, L. Gr
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140. G. Tegze, T. Pusztai, G. Tóth
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42.* K.F. Kelton, A.L. Greer, Solid
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143. L. Ratke, S. Brück, R. Mathie
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145. G. I. Tóth, L. Gránásy: Pha
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147. W. Löser, R. Hermann, T. G. W
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149. Z. Fan, Y. Wang, Z.F. Zhang, M
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151. J. A. Warren, T. Pusztai, L. K
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153. G. Tegze, L. Gránásy, G. I.
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155. G. I. Tóth, G. Tegze, T. Pusz
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157. G. Tegze, L. Gránásy, G. I.
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159. G. Tegze, G. I. Tóth, L. Grá
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161. H. Emmerich, L. Gránásy, H.
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163. G. I. Tóth, T. Pusztai, G. Te
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165. H. Emmerich, H. Löwen, R. Wit
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3. T. Pusztai, G. Bortel, G. Tóth,
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5. G. Tegze, G. Tóth, L. Gránásy
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