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Phase stability of AlMgB14 based materials and Ge2Sb2Te5 with Si and N additions studied by theoretical and experimental means
Phase stability of AlMgB14 based materials and Ge2Sb2Te5 with Si and N additions studied by theoretical and experimental means
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Description
Furthermore, AlYB14 (Imma) thin films were synthesized by magnetron sputtering. On the basis of x-ray diffraction, no phases other than crystalline AlYB14 could be identified. According to electron probe microanalysis, energy dispersive x-ray analysis, and elastic recoil detection analysis, the Al and Y occupancies vary in the range of 0.73-1.0 and 0.29-0.45, respectively. Density functional theory based calculations were carried out to investigate the effect of occupancy on the stability of AlxYyB14 (x,y = 0.25, 0.5, 0.75, 1). The mean effective charge per icosahedron and the bulk moduli were also calculated. It is shown that the most stable configuration is Al0.5YB14, corresponding to a charge transfer of two electrons from the metal atoms to the boron icosahedra. Furthermore, it is found that the stability of a configuration is increased as the charge is homogeneously distributed within the icosahedra. The bulk moduli for all configurations investigated are in the range between 196 and220 GPa, rather close to those for known hard phases such as a- Al2O3.
In addition to that, the influence of Si and N in Ge2Sb2Te5 (space group 3 ) onstructure and phase stability thereof was studied experimentally by thin film growthand characterization as well as theoretically by ab initio calculations. It was found thatSi and N most probably accumulate in the amorphous matrix embedding Ge2Sb2Te5 grains. The incorporation of Si and N in these samples causes an increase of the crystallization temperature and the formation of finer grains. N is more efficient in increasing the crystallization temperature and in reducing the grain size than Si, which can be understood based on the bonding analysis. The incorporation of both Si and N in Ge2Sb2Te5 is energetically unfavorable, leading to finer grains and larger crystallization temperatures. While in the case of Si additions no significant changes in bonding are observed, N additions appear to enable the formation of strong Te-N bonds in the amorphous matrix, which are shown to be almost twice as strong as the strongest bonds in unalloyed Ge2Sb2Te5.
Product details
- Binding:
- Paperback
- Edition:
- 1
- Number of Pages:
- 96
- Release Date:
- 2011-09-01
- Publication Date:
- 2011-09-30
- Publisher:
- Shaker Verlag
- Languages:
- Original: English
- ISBN10:
- 3844003061
- ISBN13:
- 9783844003062
- Weight:
- 150 g
- Height:
- 149 cm
- Width:
- 208 cm
- Thickness:
- 10 cm
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