material
Hf2Ni2Sn
ID:
mp-510041
DOI:
10.17188/1262819
Final Magnetic Moment0.000 μBCalculated total magnetic moment for the unit cell within the magnetic ordering provided (see below). Typically accurate to the second digit. |
Magnetic OrderingNM |
Formation Energy / Atom-0.575 eVCalculated formation energy from the elements normalized to per atom in the unit cell. |
Energy Above Hull / Atom0.011 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. |
Density11.62 g/cm3The calculated bulk crystalline density, typically underestimated due calculated cell volumes overestimated on average by 3% (+/- 6%) |
Decomposes ToHfNi + HfNiSn |
Band Gap0.000 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 MauguinP42/mnm [136] |
Hall-P 4n 2n |
Point Group4/mmm |
Crystal Systemtetragonal |
Electronic Structure
Topological ClassificationSM*
|
SubclassificationES†
|
Crossing TypeLine
|
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%)
X-Ray Absorption Spectra
Select an element to display a spectrum averaged over all sites of that element in the structure.
Apply Gaussian smoothing:
Download spectra for every symmetrically equivalent absorption site in the structure.
Download FEFF Input parameters.
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 0 1> | 299.8 |
| AlN (mp-661) | <1 0 0> | <0 0 1> | 249.8 |
| AlN (mp-661) | <1 0 1> | <1 0 0> | 239.9 |
| GaAs (mp-2534) | <1 1 0> | <1 0 1> | 138.5 |
| BaF2 (mp-1029) | <1 0 0> | <0 0 1> | 199.9 |
| GaN (mp-804) | <1 0 1> | <1 0 0> | 239.9 |
| SiO2 (mp-6930) | <1 0 1> | <0 0 1> | 349.8 |
| KCl (mp-23193) | <1 1 0> | <1 0 0> | 287.9 |
| ZnSe (mp-1190) | <1 1 0> | <1 0 1> | 138.5 |
| ZnSe (mp-1190) | <1 1 1> | <1 0 0> | 287.9 |
| Te2W (mp-22693) | <0 0 1> | <1 0 0> | 287.9 |
| Te2Mo (mp-602) | <0 0 1> | <1 0 0> | 335.8 |
| Te2Mo (mp-602) | <1 0 1> | <1 0 0> | 335.8 |
| Ag (mp-124) | <1 1 0> | <1 1 0> | 271.4 |
| GaSe (mp-1943) | <0 0 1> | <1 1 0> | 203.5 |
| BN (mp-984) | <1 0 0> | <0 0 1> | 149.9 |
| BN (mp-984) | <1 0 1> | <1 0 0> | 239.9 |
| Bi2Se3 (mp-541837) | <0 0 1> | <0 0 1> | 149.9 |
| AlN (mp-661) | <1 1 1> | <1 0 0> | 335.8 |
| CeO2 (mp-20194) | <1 0 0> | <0 0 1> | 249.8 |
| GaAs (mp-2534) | <1 0 0> | <0 0 1> | 249.8 |
| GaAs (mp-2534) | <1 1 1> | <1 0 0> | 287.9 |
| SiO2 (mp-6930) | <0 0 1> | <0 0 1> | 349.8 |
| KCl (mp-23193) | <1 0 0> | <0 0 1> | 199.9 |
| DyScO3 (mp-31120) | <0 1 1> | <1 1 1> | 168.5 |
| DyScO3 (mp-31120) | <1 0 1> | <1 0 1> | 277.1 |
| DyScO3 (mp-31120) | <1 1 0> | <0 0 1> | 249.8 |
| InAs (mp-20305) | <1 0 0> | <1 0 0> | 191.9 |
| ZnSe (mp-1190) | <1 0 0> | <0 0 1> | 249.8 |
| KTaO3 (mp-3614) | <1 1 0> | <1 1 0> | 67.8 |
| KTaO3 (mp-3614) | <1 1 1> | <0 0 1> | 249.8 |
| CdS (mp-672) | <1 0 0> | <1 0 0> | 143.9 |
| CdS (mp-672) | <1 1 0> | <1 1 0> | 203.5 |
| LiF (mp-1138) | <1 1 0> | <1 0 1> | 69.3 |
| Te2W (mp-22693) | <0 1 0> | <1 0 0> | 335.8 |
| Te2W (mp-22693) | <0 1 1> | <1 0 0> | 239.9 |
| YVO4 (mp-19133) | <0 0 1> | <0 0 1> | 50.0 |
| YVO4 (mp-19133) | <1 0 0> | <1 0 1> | 138.5 |
| YVO4 (mp-19133) | <1 0 1> | <1 0 1> | 69.3 |
| YVO4 (mp-19133) | <1 1 1> | <0 0 1> | 249.8 |
| Ag (mp-124) | <1 1 1> | <0 0 1> | 149.9 |
| Bi2Te3 (mp-34202) | <0 0 1> | <1 0 0> | 287.9 |
| GaSe (mp-1943) | <1 1 0> | <1 0 0> | 239.9 |
| GaSe (mp-1943) | <1 1 1> | <1 0 0> | 239.9 |
| BN (mp-984) | <0 0 1> | <1 0 0> | 239.9 |
| MoS2 (mp-1434) | <0 0 1> | <0 0 1> | 349.8 |
| PbSe (mp-2201) | <1 0 0> | <1 0 0> | 191.9 |
| BaTiO3 (mp-5986) | <0 0 1> | <0 0 1> | 249.8 |
| BaTiO3 (mp-5986) | <1 0 1> | <1 1 1> | 252.8 |
| BaTiO3 (mp-5986) | <1 1 1> | <1 1 1> | 84.3 |
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 |
|---|---|---|---|
| Ti2InNi2 (mp-20339) | 0.5109 | 0.000 | 3 |
| Yb2Pt2Pb (mp-630862) | 0.5416 | 0.000 | 3 |
| Zr2InPd2 (mp-608402) | 0.4920 | 0.135 | 3 |
| Zr2Ni2Sn (mp-510040) | 0.0869 | 0.017 | 3 |
| Er2SnAu2 (mp-31143) | 0.2741 | 0.027 | 3 |
| Tm3Al2 (mp-982635) | 0.6331 | 0.000 | 2 |
| Er3Al2 (mp-31181) | 0.6215 | 0.014 | 2 |
| Lu3Al2 (mp-16508) | 0.6208 | 0.000 | 2 |
| Y3Al2 (mp-16723) | 0.6138 | 0.004 | 2 |
| Dy3Al2 (mp-571624) | 0.6272 | 0.019 | 2 |
Calculation Summary
Structure Optimization
Run TypeGGA |
Energy Cutoff520 eV |
# of K-pointsNone |
U Values-- |
PseudopotentialsVASP PAW: Hf_pv Ni_pv Sn_d |
Final Energy/Atom-7.6720 eV |
Corrected Energy-153.4391 eV
-153.4391 eV = -153.4391 eV (uncorrected energy)
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Detailed input parameters and outputs for all calculations
ICSD IDs
- 407546
Submitted by
User remarks:
- Hafnium nickel stannide (2/2/1)
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)