material
NaSr9Fe5(MoO6)5
ID:
mp-706231
DOI:
10.17188/1286123
Final Magnetic Moment29.028 μBCalculated total magnetic moment for the unit cell within the magnetic ordering provided (see below). Typically accurate to the second digit. |
Magnetic OrderingFM |
Formation Energy / Atom-2.561 eVCalculated formation energy from the elements normalized to per atom in the unit cell. |
Energy Above Hull / Atom0.020 eVThe energy of decomposition of this material into the set of most stable materials at this chemical composition, in eV/atom. Stability is tested against all potential chemical combinations that result in the material's composition. For example, a Co2O3 structure would be tested for decomposition against other Co2O3 structures, against Co and O2 mixtures, and against CoO and O2 mixtures. |
Density5.32 g/cm3The calculated bulk crystalline density, typically underestimated due calculated cell volumes overestimated on average by 3% (+/- 6%) |
Decomposes ToSrMoO4 + Sr2FeMoO6 + NaFeO2 |
Band Gap0.504 eVIn general, band gaps computed with common exchange-correlation functionals such as the LDA and GGA are severely underestimated. Typically the disagreement is reported to be ~50% in the literature. Some internal testing by the Materials Project supports these statements; typically, we find that band gaps are underestimated by ~40%. We additionally find that several known insulators are predicted to be metallic. |
Hermann MauguinC2 [5] |
HallC 2y |
Point Group2 |
Crystal Systemmonoclinic |
Electronic Structure
Band Structure and Density of States
X-Ray Diffraction
-
Select radiation source:
- Cu
- Ag
- Mo
- Fe
Calculated powder diffraction pattern; note that peak spacings may be affected due to inaccuracies in calculated cell volume, which is typically overestimated on average by 3% (+/- 6%)
Substrates
Reference for minimal coincident interface area (MCIA) and elastic energy:substrate orientation:
| substrate material | substrate orientation | film orientation | MCIA† [Å2] |
|---|---|---|---|
| AlN (mp-661) | <0 0 1> | <0 1 0> | 317.2 |
| AlN (mp-661) | <1 0 1> | <0 1 0> | 190.3 |
| CeO2 (mp-20194) | <1 0 0> | <0 1 0> | 31.7 |
| CeO2 (mp-20194) | <1 1 0> | <0 1 0> | 126.9 |
| CeO2 (mp-20194) | <1 1 1> | <0 1 0> | 158.6 |
| GaAs (mp-2534) | <1 0 0> | <0 1 0> | 31.7 |
| GaAs (mp-2534) | <1 1 0> | <0 1 0> | 317.2 |
| GaAs (mp-2534) | <1 1 1> | <0 1 0> | 285.5 |
| BaF2 (mp-1029) | <1 0 0> | <0 1 0> | 158.6 |
| GaN (mp-804) | <0 0 1> | <0 1 0> | 158.6 |
| GaN (mp-804) | <1 0 0> | <0 1 0> | 253.8 |
| GaN (mp-804) | <1 0 1> | <0 1 0> | 348.9 |
| GaN (mp-804) | <1 1 0> | <0 1 0> | 317.2 |
| SiO2 (mp-6930) | <1 0 0> | <0 1 0> | 222.0 |
| SiO2 (mp-6930) | <1 1 0> | <0 1 0> | 95.2 |
| KCl (mp-23193) | <1 0 0> | <0 1 0> | 158.6 |
| DyScO3 (mp-31120) | <0 1 0> | <0 1 0> | 126.9 |
| DyScO3 (mp-31120) | <1 0 0> | <0 1 0> | 222.0 |
| DyScO3 (mp-31120) | <1 0 1> | <0 1 0> | 222.0 |
| DyScO3 (mp-31120) | <1 1 0> | <0 1 0> | 63.4 |
| InAs (mp-20305) | <1 0 0> | <0 1 0> | 158.6 |
| ZnSe (mp-1190) | <1 0 0> | <0 1 0> | 31.7 |
| ZnSe (mp-1190) | <1 1 0> | <0 1 0> | 222.0 |
| ZnSe (mp-1190) | <1 1 1> | <0 1 0> | 285.5 |
| KTaO3 (mp-3614) | <1 0 0> | <0 1 0> | 31.7 |
| KTaO3 (mp-3614) | <1 1 0> | <0 1 0> | 158.6 |
| KTaO3 (mp-3614) | <1 1 1> | <0 1 0> | 222.0 |
| CdS (mp-672) | <0 0 1> | <0 1 0> | 317.2 |
| CdS (mp-672) | <1 0 0> | <0 1 0> | 317.2 |
| CdS (mp-672) | <1 1 1> | <0 1 0> | 253.8 |
| LiF (mp-1138) | <1 0 0> | <0 1 0> | 285.5 |
| LiF (mp-1138) | <1 1 0> | <0 1 0> | 158.6 |
| LiF (mp-1138) | <1 1 1> | <0 1 0> | 222.0 |
| YVO4 (mp-19133) | <0 0 1> | <0 1 0> | 253.8 |
| Te2Mo (mp-602) | <0 0 1> | <0 1 0> | 253.8 |
| Te2Mo (mp-602) | <1 0 1> | <0 1 0> | 285.5 |
| Ag (mp-124) | <1 0 0> | <0 1 0> | 158.6 |
| BN (mp-984) | <0 0 1> | <0 1 0> | 190.3 |
| BN (mp-984) | <1 0 0> | <0 1 0> | 95.2 |
| BN (mp-984) | <1 0 1> | <0 1 0> | 222.0 |
| Bi2Se3 (mp-541837) | <0 0 1> | <0 1 0> | 317.2 |
| MoS2 (mp-1434) | <0 0 1> | <0 1 0> | 158.6 |
| Al (mp-134) | <1 0 0> | <0 1 0> | 31.7 |
| Al (mp-134) | <1 1 0> | <0 1 0> | 158.6 |
| Al (mp-134) | <1 1 1> | <0 1 0> | 222.0 |
| LiGaO2 (mp-5854) | <0 0 1> | <0 1 0> | 253.8 |
| LiGaO2 (mp-5854) | <1 0 0> | <0 1 0> | 222.0 |
| LiGaO2 (mp-5854) | <1 0 1> | <0 1 0> | 95.2 |
| TeO2 (mp-2125) | <0 0 1> | <0 1 0> | 31.7 |
| TeO2 (mp-2125) | <1 0 1> | <0 1 0> | 222.0 |
Elasticity
A full elastic tensor has not been calculated for this material. Registered users can view statistical-learning-based predictions of this material's bulk and shear moduli.
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Similar Structures
Explanation of dissimilarity measure:
Documentation.
| material | dissimilarity | Ehull | # of elements |
|---|---|---|---|
| KMnF3 (mp-555359) | 0.3527 | 0.000 | 3 |
| CsPbBr3 (mp-1014168) | 0.3115 | 0.009 | 3 |
| CaSiO3 (mp-3387) | 0.3067 | 0.241 | 3 |
| CsDyBr3 (mp-1079040) | 0.3276 | 0.093 | 3 |
| LaAlO3 (mp-1080080) | 0.3082 | 0.001 | 3 |
| SrLaMn2O6 (mp-699554) | 0.2348 | 0.094 | 4 |
| Rb2NaHoF6 (mp-15318) | 0.2533 | 0.000 | 4 |
| Sr2MgMoO6 (mp-1078539) | 0.2689 | 0.000 | 4 |
| Sr2MgReO6 (mp-1078868) | 0.2692 | 0.000 | 4 |
| SrLaMn2O6 (mp-690558) | 0.2543 | 0.096 | 4 |
| Sr10Fe4Co(MoO6)5 (mp-745112) | 0.2594 | 0.016 | 5 |
| Sr20FeCo9(MoO6)10 (mp-706242) | 0.2432 | 0.000 | 5 |
| NaSr2LaTi4O12 (mp-694876) | 0.2373 | 0.013 | 5 |
| Na3Sr4La3Ti10O30 (mp-695582) | 0.2554 | 0.012 | 5 |
| Sr20Fe9Co(MoO6)10 (mp-745210) | 0.2380 | 0.000 | 5 |
| Na5Ca2Ce3Ti8Nb2O30 (mp-721094) | 0.5201 | 0.065 | 6 |
Calculation Summary
Structure Optimization
Run TypeGGA+U |
Energy Cutoff520 eV |
# of K-pointsNone |
U ValuesFe: 5.3 eVMo: 4.38 eV |
PseudopotentialsVASP PAW: Na_pv Sr_sv Fe_pv Mo_pv O |
Final Energy/Atom-6.7437 eV |
Corrected Energy-385.0849 eV
Uncorrected energy = -337.1849 eV
Composition-based energy adjustment (-0.687 eV/atom x 30.0 atoms) = -20.6100 eV
Composition-based energy adjustment (-2.256 eV/atom x 5.0 atoms) = -11.2800 eV
Composition-based energy adjustment (-3.202 eV/atom x 5.0 atoms) = -16.0100 eV
Corrected energy = -385.0849 eV
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Detailed input parameters and outputs for all calculations
Displaying lattice parameters for primitive cell; note that calculated cell volumes are typically overestimated on average by 3% (+/- 6%). Note the primitive cell may appear less symmetric than the conventional cell representation (see "Structure Type" selector below the 3d structure)