material
Ti3Mn2Cr(PO4)6
ID:
mp-773110
Final Magnetic Moment14.000 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-2.867 eVCalculated formation energy from the elements normalized to per atom in the unit cell. |
Energy Above Hull / Atom0.004 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. |
Density3.18 g/cm3The calculated bulk crystalline density, typically underestimated due calculated cell volumes overestimated on average by 3% (+/- 6%) |
Decomposes ToTiMnCr(PO4)3 + Ti4Mn(PO4)6 + CrP + Mn3(PO4)2 + TiO2 |
Band Gap0.057 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 MauguinR3 [146] |
HallR 3 |
Point Group3 |
Crystal Systemtrigonal |
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] |
|---|---|---|---|
| KTaO3 (mp-3614) | <1 1 1> | <0 0 1> | 194.6 |
| LiF (mp-1138) | <1 1 1> | <0 0 1> | 194.6 |
| Te2W (mp-22693) | <0 1 0> | <0 0 1> | 259.5 |
| Te2Mo (mp-602) | <1 0 0> | <0 0 1> | 259.5 |
| Ag (mp-124) | <1 1 1> | <0 0 1> | 259.5 |
| BN (mp-984) | <1 1 0> | <0 0 1> | 64.9 |
| Bi2Se3 (mp-541837) | <0 0 1> | <0 0 1> | 194.6 |
| Al (mp-134) | <1 1 1> | <0 0 1> | 194.6 |
| LiGaO2 (mp-5854) | <0 1 1> | <0 0 1> | 129.8 |
| LiGaO2 (mp-5854) | <1 1 0> | <0 0 1> | 194.6 |
| SiC (mp-7631) | <0 0 1> | <0 0 1> | 259.5 |
| MgO (mp-1265) | <1 0 0> | <0 0 1> | 324.4 |
| Ge3(BiO3)4 (mp-23560) | <1 1 1> | <0 0 1> | 194.6 |
| C (mp-66) | <1 1 1> | <0 0 1> | 64.9 |
| LaF3 (mp-905) | <1 0 0> | <0 0 1> | 324.4 |
| PbS (mp-21276) | <1 0 0> | <0 0 1> | 324.4 |
| PbS (mp-21276) | <1 1 0> | <0 0 1> | 259.5 |
| PbS (mp-21276) | <1 1 1> | <0 0 1> | 64.9 |
| InP (mp-20351) | <1 0 0> | <0 0 1> | 324.4 |
| InP (mp-20351) | <1 1 0> | <0 0 1> | 259.5 |
| InP (mp-20351) | <1 1 1> | <0 0 1> | 64.9 |
| BaF2 (mp-1029) | <1 0 0> | <1 0 1> | 194.3 |
| BaF2 (mp-1029) | <1 1 1> | <0 0 1> | 64.9 |
| SiO2 (mp-6930) | <0 0 1> | <0 0 1> | 64.9 |
| SiO2 (mp-6930) | <1 0 1> | <0 0 1> | 324.4 |
| SiO2 (mp-6930) | <1 1 1> | <0 0 1> | 324.4 |
| InAs (mp-20305) | <1 0 0> | <1 0 1> | 194.3 |
| InAs (mp-20305) | <1 1 1> | <0 0 1> | 64.9 |
| Ni (mp-23) | <1 1 0> | <0 0 1> | 259.5 |
| Ni (mp-23) | <1 1 1> | <0 0 1> | 64.9 |
| PbSe (mp-2201) | <1 0 0> | <1 0 1> | 194.3 |
| PbSe (mp-2201) | <1 1 1> | <0 0 1> | 64.9 |
| BaTiO3 (mp-5986) | <1 1 0> | <0 0 1> | 194.6 |
| SiC (mp-11714) | <0 0 1> | <0 0 1> | 259.5 |
| MoSe2 (mp-1634) | <0 0 1> | <0 0 1> | 259.5 |
| CdSe (mp-2691) | <1 0 0> | <1 0 1> | 194.3 |
| CdSe (mp-2691) | <1 1 1> | <0 0 1> | 64.9 |
| C (mp-48) | <0 0 1> | <0 0 1> | 194.6 |
| WSe2 (mp-1821) | <0 0 1> | <0 0 1> | 259.5 |
| WSe2 (mp-1821) | <1 1 0> | <0 0 1> | 259.5 |
| WSe2 (mp-1821) | <1 1 1> | <0 0 1> | 259.5 |
| ZrO2 (mp-2858) | <0 1 1> | <1 0 1> | 194.3 |
| Ge(Bi3O5)4 (mp-23352) | <1 1 1> | <0 0 1> | 194.6 |
| CaCO3 (mp-3953) | <0 0 1> | <0 0 1> | 64.9 |
| CaCO3 (mp-3953) | <1 0 0> | <0 0 1> | 259.5 |
| YAlO3 (mp-3792) | <1 0 0> | <0 0 1> | 324.4 |
| YAlO3 (mp-3792) | <1 1 0> | <0 0 1> | 324.4 |
| SiC (mp-8062) | <1 0 0> | <0 0 1> | 194.6 |
| SiC (mp-8062) | <1 1 0> | <0 0 1> | 324.4 |
| ZnO (mp-2133) | <0 0 1> | <0 0 1> | 64.9 |
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 |
|---|---|---|---|
| MnPO4 (mp-773411) | 0.1521 | 0.344 | 3 |
| VPO4 (mp-861584) | 0.1912 | 0.079 | 3 |
| FePO4 (mp-773675) | 0.4583 | 0.045 | 3 |
| CoPO4 (mp-510669) | 0.4523 | 0.197 | 3 |
| TiPO4 (mp-779587) | 0.3004 | 0.077 | 3 |
| TiCu(PO4)2 (mp-756467) | 0.1002 | 0.053 | 4 |
| TiMn5(PO4)6 (mp-772326) | 0.0993 | 0.037 | 4 |
| MnV2(PO4)3 (mp-775212) | 0.0789 | 0.192 | 4 |
| Ti2Nb(PO4)3 (mp-777181) | 0.1049 | 0.138 | 4 |
| LiFe2(PO4)3 (mp-31845) | 0.0734 | 0.323 | 4 |
| Cr5O12 (mp-773920) | 0.6993 | 0.000 | 2 |
| Mo4O11 (mp-565865) | 0.6929 | 0.025 | 2 |
| V5O12 (mp-778252) | 0.6949 | 0.024 | 2 |
| Mn2V3Fe(PO4)6 (mp-762294) | 0.0647 | 0.000 | 5 |
| Ti3Mn2V(PO4)6 (mp-775444) | 0.0676 | 0.011 | 5 |
| TiMnCr(PO4)3 (mp-743582) | 0.0421 | 0.000 | 5 |
| Mn2V3Cr(PO4)6 (mp-769568) | 0.0633 | 0.000 | 5 |
| V3FeCu2(PO4)6 (mp-765327) | 0.0870 | 0.039 | 5 |
| Na2Li3Ti3Al(PO4)6 (mp-769078) | 0.4739 | 0.068 | 6 |
| LiTi3MnCr(PO4)6 (mp-772224) | 0.1620 | 0.001 | 6 |
| Li2Ti2MnCr2(PO4)6 (mp-777244) | 0.4401 | 0.015 | 6 |
| Na2LiTi3Al(PO4)6 (mp-769074) | 0.4629 | 0.011 | 6 |
| Na2LiTi3Al(PO4)6 (mp-769073) | 0.4506 | 0.014 | 6 |
Calculation Summary
Structure Optimization
Run TypeGGA+U |
Energy Cutoff520 eV |
# of K-pointsNone |
U ValuesMn: 3.9 eVCr: 3.7 eV |
PseudopotentialsVASP PAW: Ti_pv Mn_pv Cr_pv P O |
Final Energy/Atom-7.8852 eV |
Corrected Energy-305.6895 eV
Uncorrected energy = -283.8665 eV
Composition-based energy adjustment (-0.687 eV/atom x 24.0 atoms) = -16.4880 eV
Composition-based energy adjustment (-1.668 eV/atom x 2.0 atoms) = -3.3360 eV
Composition-based energy adjustment (-1.999 eV/atom x 1.0 atoms) = -1.9990 eV
Corrected energy = -305.6895 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)