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45. L. Gránásy, L. Ratke: Homogeneous nucleation within the liquid miscibility gap of Zn-Pb alloys. Scripta Metall. Mater. 28, 1329-1334 (1993). IF: 0.912 *** 1. R. Goswami, K. Chattopadhyay, Mater. Sci. Eng. A179 (1994) 163. 2. R.N. Singh, F. Sommer, Rep. Prog. Phys. 60, 57 (1997). 3. P.R. Sahm. I. Egry, T. Volkmann, Schmelze, Erstarrung, Grenzflachen. Eine Einfahrung in die Physik und Technologie flüssiger und fester Metalle. (Springer, Berli 1999) p. 205. 4. X.J. Han, N. Wang, B.B. Wei, Prog. Nat. Sci. 11, 602 (2001). 5. J.J. Guo, Y. Liu, J. Jia, Y.Q. Su, H.S. Ding, Acta Metallurgica Sinica 37, 363 (2001). 6. Y.A. Liu, J.J. Guo, J. Jia, Y.X. Li, J.Z. Zhao, Trans. of Nonferrous Metals Society of China 12, 193 (2002). 7. J.Z. Zhao, Trans. Nonferrous Metals Soc. China 12, 366 (2002). 8. J. An, Y.B. Liu, Q.Y. Zhang, C. Dong, Materials Characterization 48, 347 (2002). 9. Y.Q. Su, H.B. Cui, J.J Guo, Y. Liu, J. Jia, H.Z. Fu, J. Harbin Inst. Technol. 9, 149 (2002). 10. Su Yanqing, Cui Hongbao, Guo Jingjie, Liu Yuan, Jia Jun, Foundry 51, (10) 618-623, Paper no. 1001-4977 (2002). 11.* K.Chattopadhyay, S. Sanyal, G. Phanikumar, B.L. Mordike, R. Galun, "Materials Week 2001 - Proceedings", Ed. Werkstoffwoche-Partnerschaft bR, Werkstoff- Informationsgesellschaft mbH Frankfurt (2002) Paper No. 388. 12. J. An, Y.B. Liu, Y. Lu, Q.Y. Zhang, C. Dong, Wear 256, 374 (2004). 13. G. Phanikumar, P. Dutta, R. Galun. K. Chattopadhyay, Mater. Sci. Eng. A 371, 91 (2004). 14. S.Z. Hao, J. An, Y.B. Liu, Y. Lu, Mater. Design, 26, 181 (2005). 15. J.He, J. Zhao, Mater. Sci. Eng. A 404, 85 (2005). 16. J.Z. Zhao, L.L. Gao, J. He, Appl. Phys. Lett. 87, 131905 (2005). 17. J. He, J.Z. Zhao, J. Mater. Sci. Technology 21, 759 (2005). 18. J.Z. Zhao, H.L. Li, J. He, Science in China-Phys. Mech. Astron., Series G 50, 467-471 (2007). 19. 李海丽, 赵九洲, Science in China, Series G 37, (3) 337-341 (2007). 20. J.Z. Zhao, H.L. Li, X.F. Zhang, J. He, Mater. Lett. 62, 3779 (2008). 21. J.Z. Zhao, H.L. Li, J. He, X.F. Zhang, Acta Metall. Sinica 44, 693 (2008). 22. H. Li, J. Zhao, Q. Zhang, J. He, Metall. Mater. Trans. A 39, 3308 (2008). 23. P.L. Schaffer, R.H. Mathiesen, L. Arnberg, Acta Mater. 57, 189 (2009). 24. H. Li, J. Zhao, Comput. Mater. Sci. 46, 1069 (2009). 25. J.Z. Zhao, H.L. Li, L. Zhao, Acta Metall. Sinica 45, 1435 (2009). 26. P.L. Schaffer, R.H. Mathiesen, L. Arnberg, Trans. Ind. Inst. Metals 62, 437 (2009). 27. H. Li, J.Z. Zhao, Acta Metall. Sin. 46, 695 (2010). 28. L. Zhao, J. Zhao, Acta Metall. Sin. 48, 1381-1386 (2012). DOI:10.3724/SP.J.1037.2012.00422 29. L. Zhao, J. Zhao, Metall. Mater. Trans. A 43, (13) 5019-5028 (2012). DOI: 10.1007/s11661-012-1313-3
46. L. Gránásy: Diffuse interface theory of nucleation. J. Non-Cryst. Solids 162, 301-303 (1993). IF: 0.970 *** 1. F. Spaepen, Solid State Phys. 47 (1994) 1. 2. A. Laaksonen, V. Talanquer, D. W. Oxtoby, Ann. Rev. Phys. Chem. 46 (1995) 489. 3. V. Talanquer, D. W. Oxtoby, J. Phys. Chem. 99 (1995) 2865. 4. * G. Vali, “Nucleation and Atmospheric Aerosols 1996”, ed. M. Kulmala and P.E. Wagner (Pergamon, Amsterdam, 1996) p. 271. 5. L. Battezzati, Mat. Res. Soc. Symp. Proc. 400, 191 (1996). 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. M. Iwamatsu and K. Horii, J. Phys. Soc. Jpn. 66 (1997) 1210. 9. S. A. Moir, D. M. Herlach, Acta Mater 45 (1997) 2827. 10. L. Battezzati, Mater. Sci. Forum. 235-238, 317 (1997). 11. F. Spaepen, Mater. Sci. Eng. A226, 129 (1997). 12. X.Y. Jiang, Z.C. Zhong, A.L. Greer, Mater. Sci. Eng. A226, 789 (1997). 13. P.F. James, Glastech. Ber. Glass Sci. Technol. 70C, 144 (1997). 14. P.F. James, Y. Iqbal, U. S. Jais, S. Jordery, W. E. Lee, J. Non-Cryst. Solids 219, 17 (1997). 15. J. Huang, X. Zhu, L.S. Bartell, J. Phys. Chem. A 102, 2708 (1998). 16. L. S. Bartell, J. Mol. Structure 445, 59 (1998). 17. L.S. Bartell, Annu. Rev. Phys. Chem. 49, 43 (1998). 18. L.S. Bartell, J.F. Huang, J. Phys. Chem. A102, 8722 (1998). 19. P. Santikary, K.E. Kinney, L.S. Bartell, J. Phys. Chem. A102, 10324 (1998). 20 Y. Chushak, P. Santikary, L.S. Bartell, J. Phys. Chem. A103, 5636 (1999). 21.* L. Battezzati, in Chemical Thermodynamics (‘IUPAC Chemistry for the 21st Century Series’ Monograph), ed. T.M. Letcher (Blackwell Science, Oxford, 1999) p. 239-249. 22. D.M. Matson, Mater. Res. Soc. SP 551, 227-234 (1999). 23. K.Y. Qu, Y. Jiang, Acta Phys. Sinica 49, 2218 (2000). 24. S. Kotake, J. Jpn. Inst. Metals 64, 759 (2000). 25. Y. Chushak, L.S. Bartell, J. Phys. Chem. A104, 9328 (2000). 26.* D. Kashchiev, Nucleation: Basic Theory with Applications (Butterworth-Heinemann, Oxford, 2000) p. 97. 27. L. Battezzati, Mater. Sci. Eng. A-Struct. 304, 103, Sp. Iss. SI (2001). 28. H.S. Deng, J.F. Huang, J Solid State Chem. 159, 10 (2001). 29. J. Schroers, Y. Wu, R. Busch, W.L. Johnson, Acta Mater. 49, 2773 (2001). 30. J.F. Huang, L.S. Bartell, J. Phys. Chem. A 106, 2404 (2002). 31. A.B. Herhold, H.E. King, E.B. Sirota, J. Chem. Phys. 116 , 9036 (2002). 32. M.H. Ma, W.Q. Lu, J.F. Huang, J. Solid State Chem. 165, 289 (2002). 33.* L. Battezzati, A. Castellero, Nucleation and the Properties of Undercooled Melts (Trans. Tech, Basel, 2002) p.69. 34. I. Kusaka, J. Chem. Phys. 119, 1808 (2003). 35. J.J. Hoyt, M. Asta, A. Karma, Mater. Sci. Eng. R 41, 121 (2003). 36. X. Li, J.F. Huang, J. Solid State Chem. 176, 234 (2003). 37. X. Li, J.F. Huang, Chinese J. Chem. 21, 1543 (2003). 38.* A.L. Greer, in Solidification and Casting, eds. B. Cantor, K. O’Reilly, Series in Material Science (IOP, 2003), p. 199. 39.* L.S. Bartell, Y.G. Chushak, in "Water in confining geometries", eds. V. Buch and J.P. Devlin (Springer-Verlag, Berlin, 2003) in p. 399. 40. R.M. Digilov, Surface Sci. 555, 68 (2004). 41. K.F. Kelton, Phys. Chem. Glass. 45, 64 (2004). 42.* K.F. Kelton, Crystallisation 2003, eds. P. F. James, R. J. Hand, M. D. Ingram (Soc. Glass Technology, Sheffield, 2004) Part B, p. 64. 43. J.E. Hammer, Am. Miner. 89, 1673 (2004). 44. I. Kusaka, AIChE Annual Meeting, Conf. Proc. (2004) p. 6949. 45.* L. Battezzati, in Novel Nanocrystalline Alloys and Magnetic Nanomaterials, eds, B. Cantor, A. Inoue (CRC Press, Boca Ratorn, 2004) Ch. 1, Section 1, p. 3.
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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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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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116. L. Gránásy, T. Pusztai, J. A
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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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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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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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42.* K.F. Kelton, A.L. Greer, Solid
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145. G. I. Tóth, L. Gránásy: Pha
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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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165. H. Emmerich, H. Löwen, R. Wit
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5. G. Tegze, G. Tóth, L. Gránásy
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