| 1. | Mechanism of formation of highly ordered tio2 nanowire arrays
2纳米线阵列生长机理的研究 |
| 2. | Scientific computing study on growth mechanism of spinel
尖晶石晶体生长机理的科学计算研究 |
| 3. | The growth mechanism of - sic nanowires networks is discussed
并讨论了纳米线网的生长机理。 |
| 4. | Summary on the growth mechanism of crystal
晶体生长机理的研究综述 |
| 5. | Preliminary study on the evaluation system of digital libraries
外延晶体学位相关系和生长机理研究 |
| 6. | Two kinds of possible growth mechanisms are proposed for two different nanostructures
对上述两种不同纳米结构,分别提出了两种可能的生长机理。 |
| 7. | In addition , the growth mechanism on porous silicon has been discussed in view of growth kinetics
从晶体生长动力学角度分析了多孔硅上外延硅的生长机理。 |
| 8. | In this paper , the present situation and development of the research on growth mechanism of crystal are also discussed
对晶体生长机理的研究现状和发展趋势予以了讨论。 |
| 9. | Good theory explain also can be get from the simulation of 200mm solar cell czsi growth at 16 " heat system
从而对新型16 ”复合式热系统生长200mmczsi单晶的生长机理进行了比较好的理论解释。 |
| 10. | The value of f ( t ) of nancomposites was larger than that of pp , indicating that the crystallization rate of nanocomposite was faster than that of pp . 2
蒙脱土和pp - g - mah的加入改变了pp的成核和生长机理,起到了异相成核作用。 |
