同样由熔体凝固、溶液沉淀或者气相沉积出来,为什么有的材料呈晶相,有的呈非晶相? 晶体生长是由自组装形成的还是由外界条件决定的?是哪项因素决定了晶体生长时原子的有序排列?本文根据实际现象,用晶体生长的热力学理论分析了逆向离子解离对晶体成核及生长的作用机理,并对固态材料的形成与晶体成核生长之间的关系也作了进一步的阐述和分析,由此得出结论认为,由化学键结合的材料在晶体生长时必须伴随着逆向离子解离平衡,正是固态材料形成过程中的逆向离子解离过程,如同时伴随着电离的溶解、熔化及升华过程,决定了晶体生长时原子的有序排列.
参考文献
| [1] | James De Yoreo.The Secrets of Crystal Growth[J].Science & Technology Review,1996 |
| [2] | Zhong WZ.;Tang DY. .GROWTH UNITS AND MORPHOLOGY OF LITHIUM TRIBORATE (LBO) CRYSTALS[J].Journal of Crystal Growth,1996(1/4):91-98. |
| [3] | Lind M D .The Microgravity Research Experiments(MICREX) Database[OL].http://mgravity.itsc.uah.edu/microgravity/micrex/exps/lin-astp.html,2003. |
| [4] | Pamplin B.Crystal Growth[M].Pergamon Press Ltd,1975:202. |
| [5] | 钟志勇.电离对晶体生长的作用[J].人工晶体学报,2003(02):156-161. |
| [6] | Pandelisev Kiril A .Turning Crystal Growth on Its Side: A Revolutionary New Crystal Technique for Next-generation Photolithography Lens Materials Semiconductor[OL].http://www.semiconductorfabtech.com/journals/edition.15/ft15.pdfs/ft15123.pdf,2002-11-18. |
| [7] | Bogdanov MV.;Demina SE.;Karpov SY.;Kulik AV.;Ramm MS.;Makarov YN. .Advances in modeling of wide-bandgap bulk crystal growth[J].Crystal Research and Technology: Journal of Experimental and Industrial Crystallography,2003(3/5):237-249. |
| [8] | Ralf B.Bergmann;Lars Oberbeck;Thomas A.Wagner .High-quality and low-temperature epitaxial Si films deposited at very high deposition rate[J].Journal of Crystal Growth,2001(2/4):335-339. |
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