共查询到20条相似文献,搜索用时 62 毫秒
1.
Sulyanova E. A. Bolotina N. B. Kalukanov A. I. Sorokin N. I. Karimov D. N. Verin I. A. Sobolev B. P. 《Crystallography Reports》2019,64(1):41-50
Crystallography Reports - The defect structure of as-grown SrF2 and nonstoichiometric phases Sr1 – xLaxF2 + x (x = 0.11, 0.20, 0.32, 0.37, 0.47) single... 相似文献
2.
Crystallography Reports - The defect structure of as grown single crystals Sr1 – xSmxF2 + x (x = 0.14, 0.26) and... 相似文献
3.
4.
Golubkov M. V. Gorina J. I. Rodin V. V. Sentjurina N. N. Stepanov V. A. Chernook S. G. 《Crystallography Reports》2019,64(6):991-995
Crystallography Reports - The Fe1 + ySexTe1 – x single crystals grown by the KCl flux and Bridgman methods have been compared using the same investigation... 相似文献
5.
Crystallography Reports - Crystals of fluorite solid solution Sr1 − xTbxF2 + x have been grown by the Bridgman technique from melts with the initial... 相似文献
6.
Crystallography Reports - The compositions of nonstoichiometric phases Pb1 – xRxF2 + x (CaF2 type, R is a rare-earth element) have been optimized with... 相似文献
7.
Crystallography Reports - Optimization of the compositions of Cd1–xRxF2+x nonstoichiometric phases (CaF2 type, R is a rare-earth element) for the ionic conductivity and thermal stability is... 相似文献
8.
Koldaeva M. V. Rudneva E. B. Manomenova V. L. Voloshin A. E. Masalov V. M. Zhokhov A. A. Emelchenko G. A. 《Crystallography Reports》2019,64(6):926-931
Crystallography Reports - K2Ni(SO4)2 · 6H2O (KNSH), K2Co(SO4)2 · 6H2O (KCSH), and K2NixCo(1 – x)(SO4)2 · 6H2O (KCNSH) crystals have been grown by traditional... 相似文献
9.
Alekperov A. S. Dashdemirov A. O. Shumskaya A. E. Jabarov S. H. 《Crystallography Reports》2021,66(7):1322-1327
Crystallography Reports - The spectral dependences of photoconductivity in a wide temperature range (T = 80–300 K) of layered GeS single crystals, both intentionally undoped and Nd-doped,... 相似文献
10.
Krutyak N. R. Spassky D. A. Sorokina N. I. Verin I. A. Tupitsyna I. A. Dubovik A. M. 《Crystallography Reports》2020,65(6):857-861
Crystallography Reports - The structural features of a series of ZnxMg1–xWO4 mixed crystals (x = 0, 0.26, 0.41, 0.68, or 1) have been investigated using X-ray diffraction analysis and Raman... 相似文献
11.
12.
Somov N. V. Chausov F. F. Lomova N. V. Vorob’yov V. L. Kazantseva I. S. Sapozhnikov G. V. Zakirova R. M. 《Crystallography Reports》2020,65(5):726-739
Crystallography Reports - The structural features of the phases formed during crystallization of mixed copper and nickel complexes with nitrilotris(methylenephosphonic acid)... 相似文献
13.
Kubrin S. P. Raevski I. P. Olekhnovich N. M. Pushkarev A. V. Radyush Yu. V. Titov V. V. Malitskaya M. A. Li Guorong Raevskaya S. I. 《Crystallography Reports》2020,65(3):338-342
Crystallography Reports - The concentration dependences of the magnetic phase transition temperature TN, determined based on the changes in Mössbauer spectra, were investigated for a BiFeO3... 相似文献
14.
N. Izyumskaya S.J. Liu V. Avrutin X.F. Ni M. Wu Ü. Özgür S. Metzner F. Bertram J. Christen L. Zhou David J. Smith H. Morkoç 《Journal of Crystal Growth》2011,314(1):129-135
m-Plane GaN was grown selectively by metal–organic chemical vapor deposition (MOCVD) on patterned Si(1 1 2) substrates, where grooves aligned parallel to the Si〈1 1 0〉 direction were formed by anisotropic wet etching to expose the vertical Si{1 1 1} facets for growth initiation. The effect of growth conditions (substrate temperature, chamber pressure, and ammonia and trimethylgallium flow rates) on the growth habits of GaN was studied with the aim of achieving coalesced m-plane GaN films. The epitaxial relationship was found to be GaN(1 1? 0 0) || Si(1 1 2), GaN[0 0 0 1] || Si[1 1 –1], GaN[1? 1? 2 0] || Si[1 1? 0]. Among all growth parameters, the ammonia flow rate was revealed to be the critical factor determining the growth habits of GaN. The distribution of extended defects, such as stacking faults and dislocations, in the selectively grown GaN were studied by transmission electron microscopy in combination with spatially resolved cathodoluminescence and scanning electron microscopy. Basal-plane stacking faults were found in the nitrogen-wing regions of the laterally overgrown GaN, while gallium-wings were almost free of extended defects, except for the regions near the GaN/Si{1 1 1} vertical sidewall interface, where high dislocation density was observed. 相似文献
15.
Randilynn Christensen Jennifer Byer Garrett Olson Steve W. Martin 《Journal of Non》2012,358(4):826-831
The mixed glass former effect (MGFE) is defined as the non-linear and non-additive change in the ionic conductivity with changing glass former fraction at constant modifier composition between two binary glass former compositions. In this study, sodium borophosphate glasses, 0.35Na2O + 0.65[xB2O3 + (1 ? x)P2O5] with 0 ≤ x ≤ 1, have been prepared and their glass transition temperatures (Tg) have been examined as an alternative indicator of the MGFE and as an indicator of changes in the short range order (SRO) structural network units that could cause or contribute to the MGFE. The changes in Tg show a positive non-additive and non-linear trend over the changing glass former fraction, x. The increase in Tg is related to the increasing number of bridging oxygens (BO) in the glass samples, which is caused by the increase in the number of tetrahedral boron, B4, units in the SRO structure. 相似文献
16.
Keiichi Minami Fuminori Mizuno Akitoshi Hayashi Masahiro Tatsumisago 《Journal of Non》2008,354(2-9):370-373
The 70Li2S · (30 ? x)P2S5 · xP2O5 (mol%) oxysulfide glasses were prepared by the melt quenching method. The glasses were prepared in the composition range 0 ≦ x ≦ 10. The glass–ceramics were prepared by heating the glasses over crystallization temperatures. The POnS3?n (n = 1–3) oxysulfide units were produced in the glasses and glass–ceramics by partial substituting P2O5 for P2S5. In particular, the P2OS64? unit would be produced by substituting a small amount of P2O5 for P2S5. The oxygen atoms were incorporated into the Li7P3S11 crystal structure because the diffraction peaks of the oxysulfide glass–ceramic shifted to the higher angle side. The glass–ceramic with 3 mol% of P2O5 exhibited the highest conductivity of 3.0 × 10?3 S cm?1 and the lowest activation energy for conduction of 16 kJ mol?1. The P2OS64? dimer units in the oxygen-incorporated Li7P3S11 crystal would improve conductive behavior of the Li2S–P2S5 glass–ceramics. 相似文献
17.
18.
Randilynn Christensen Jennifer Byer Garrett Olson Steve W. Martin 《Journal of Non》2012,358(3):583-589
The mixed glass former effect (MGFE) is defined as a non-linear and non-additive change in the ionic conductivity with changing glass former fraction at constant modifier composition between two binary glass forming compositions. In this study, mixed glass former (MGF) sodium borophosphate glasses, 0.35 Na2O + 0.65 [xB2O3 + (1 ? x)P2O5], 0 ≤ x ≤ 1, which have been shown to have a strong positive MGFE, have been prepared and their physical properties, density and molar volume, have been examined as predictors of structural change. The density exhibits a strong positive non-linear and non-additive change in the density with x and a corresponding negative non-linear and non-additive change in the molar volume. In order to understand the structural origins of these changes, a model of the molar volume was created and best-fit to the experimentally determined molar volumes in order to determine the volumes of the short range order (SRO) structural units in these glasses, how these volume change from the molar volumes of the binary glasses, and how these volumes change across the range of x in the ternary glasses. The best-fit model was defined as the model that required the smallest changes in the volumes of the ternary phosphate and borate SRO structural groups from their values determined by the densities of the binary sodium phosphate and sodium borate glasses. In this best-fit molar volume model, it was found that the volumes of the various phosphate and borate SRO structural groups decreased by values ranging from a minimum value of ~ 1% for x = 0.1 and 0.9 to a maximum value of ~ 6% for the phosphate and ~ 9% for the borate SRO groups at the minimum in molar volume at x = 0.4. The free volume was found to have a negative deviation from linear which is unexpected given the positive deviation in ionic conductivity. 相似文献
19.
Sulphide glasses doped with rare-earth ions have been demonstrated to be suitable for photonic applications such as optical amplifiers, up-converters and fiber lasers. The substitution of metal halides into the glass network has been shown to result glasses with desirable properties in terms of quantum efficiency and fiber manufacture [J.R. Hector, J. Wang, D. Brady, M. Kluth, D.W. Hewak, W.S. Brocklesby, D.N. Payne, Journal of Non-Crystalline Solids 239 (1998) 176]. To assist in the understanding of this improvement a structural analysis of glasses with a composition xCsCl(1 ? x)Ga2S3 has been undertaken in order to examine the nature of the gallium environment. Information collected by high energy X-ray diffraction and neutron diffraction have been analyzed to permit the identification of the structural units as Ga centered tetrahedra. The interconnection between the tetrahedra was found to be predominantly corner sharing. 相似文献
20.
Er3+-doped tellurite glasses of the (80 ? x)TeO2–20ZnO–(x)Er2O3 system (0.5 mol% ? x ? 2.5 mol%) have successfully been made by melt-quenching technique and their structure has been investigated by means of DTA and Raman spectroscopy. The DTA results show the thermal parameters; such as the glass transition temperature (Tg) and crystallization temperature (Tc) were determined. It is found that this system provides a stable and wide glass formation range in which the glass stability around 99–140 °C may be obtained. The Raman spectroscopy used the structural studies in the glass system. Two Raman shift peaks were observed around 640–670 cm?1 and 720–740 cm?1, which correspond to the stretching vibration mode of TeO4 tbp and TeO3 tp, respectively. It is found that the spectral shift in Raman spectra is depending on the Er2O3 content. This evolution is an indication of the changes in the basic unit of the glass structure. 相似文献