Material:

Ti2AlNi

ID:

MMD-3090

Explore database:

Compounds with the same formula: Ti2AlNi (2 entries found)
Compounds with the same elements: Ti-Al-Ni (9 entries found)

Navigation:
Space group | Lattice parameters | Thermodynamic properties | Phase diagram | Magnetic properties | Atomic positions and site-specific magnetic data | Pair-wise magnetic data | Methods | References

Space group:

Crystal system

cubic

Space group number

216

Hermann-Mauguin

F-43m

Hall

F -4 2 3

Point group

-43m

Structure data:

Normalized formula

Ti2AlNi

The number of formula units per unit cell

4

The total number of atoms per unit cell

16

The number of inequivalent sites per unit cell

4

Structure search

MP


Lattice parameters:

a (Å)

6.2129

b (Å)

6.2129

c (Å)

6.2129

α (deg.)

90.000

β (deg.)

90.000

γ (deg.)

90.000

Volume (Å3)

239.824

Density (g/cm3)

5.024

Crystal structure visualization:


Thermodynamic properties:

DFT calculations (details)

Formation energy (vs. elemental phases)

-265.0 meV/atom

Formation energy above hull

Phase diagram:

Phase diagram
The convex hull is temporarily not available while we perform maintenance.

Related structures:

Compounds with the same formula: Ti2AlNi

2 entries found

Compounds with the same elements: Ti-Al-Ni

9 entries found

Binary compounds in Ti-Al system

No entries found

Binary compounds in Ti-Ni system

16 entries found

Binary compounds in Al-Ni system

13 entries found


Magnetic properties:

DFT calculations (details)

Magnetic ordering

Ferromagnetic

Total magnetic moment

12.00 μB/cell

Averaged magnetic moment

0.75 μB/atom

Magnetic polarization, Js = μ0Ms

0.58 T (= 461.5 emu/cm3)

LMTO-GF calculations (details)

Curie temperature, TC

DFT calculations (details)

Magnetic easy axis

Magnetic hardness parameter, κ


Atomic positions (fractional coordinates) and site-specific magnetic data:

index species w x y z m (μB) Esoc100 (meV) Esoc001 (meV)
1 Ti 4d 0.750000 0.750000 0.750000 0.84 . .
2 Ti 4d 0.000000 0.000000 0.000000 1.33 . .
3 Ti 4d 0.750000 0.250000 0.250000 0.84 . .
4 Ti 4d 0.000000 0.500000 0.500000 1.33 . .
5 Ti 4a 0.250000 0.750000 0.250000 0.84 . .
6 Ti 4a 0.500000 0.000000 0.500000 1.33 . .
7 Ti 4a 0.250000 0.250000 0.750000 0.84 . .
8 Ti 4a 0.500000 0.500000 0.000000 1.33 . .
9 Al 4c 0.750000 0.250000 0.750000 0.02 . .
10 Al 4c 0.750000 0.750000 0.250000 0.02 . .
11 Al 4c 0.250000 0.250000 0.250000 0.02 . .
12 Al 4c 0.250000 0.750000 0.750000 0.02 . .
13 Ni 4b 0.000000 0.000000 0.500000 0.18 . .
14 Ni 4b 0.000000 0.500000 0.000000 0.18 . .
15 Ni 4b 0.500000 0.000000 0.000000 0.18 . .
16 Ni 4b 0.500000 0.500000 0.500000 0.18 . .
w: site multiplicity (the number of equivalent positions) and Wyckoff letter (a label for site symmetry)
m: local magnetic moment
Esoc100 (001): Spin-orbit coupling energy for the magnetization oriented along the crystallographic a (c) axis
(Individual Esoc values are temporarily not available while we perform maintenance.)

Site-resolved magnetic moments:

Local magnetic moments

Pair-wise magnetic data:

site i site j distance (Å) Jij (meV)
1 Ti 4d 2 Ti 4d 2.69 .
1 Ti 4d 3 Ti 4d 4.39 .
1 Ti 4d 4 Ti 4d 2.69 .
1 Ti 4d 5 Ti 4a 4.39 .
1 Ti 4d 6 Ti 4a 2.69 .
1 Ti 4d 7 Ti 4a 4.39 .
1 Ti 4d 8 Ti 4a 2.69 .
1 Ti 4d 9 Al 4c 3.11 .
1 Ti 4d 10 Al 4c 3.11 .
1 Ti 4d 11 Al 4c 5.38 .
1 Ti 4d 12 Al 4c 3.11 .
1 Ti 4d 13 Ni 4b 2.69 .
1 Ti 4d 14 Ni 4b 2.69 .
1 Ti 4d 15 Ni 4b 2.69 .
1 Ti 4d 16 Ni 4b 2.69 .
2 Ti 4d 3 Ti 4d 2.69 .
2 Ti 4d 4 Ti 4d 4.39 .
2 Ti 4d 5 Ti 4a 2.69 .
2 Ti 4d 6 Ti 4a 4.39 .
2 Ti 4d 7 Ti 4a 2.69 .
2 Ti 4d 8 Ti 4a 4.39 .
2 Ti 4d 9 Al 4c 2.69 .
2 Ti 4d 10 Al 4c 2.69 .
2 Ti 4d 11 Al 4c 2.69 .
2 Ti 4d 12 Al 4c 2.69 .
2 Ti 4d 13 Ni 4b 3.11 .
2 Ti 4d 14 Ni 4b 3.11 .
2 Ti 4d 15 Ni 4b 3.11 .
2 Ti 4d 16 Ni 4b 5.38 .
3 Ti 4d 4 Ti 4d 2.69 .
3 Ti 4d 5 Ti 4a 4.39 .
3 Ti 4d 6 Ti 4a 2.69 .
3 Ti 4d 7 Ti 4a 4.39 .
3 Ti 4d 8 Ti 4a 2.69 .
3 Ti 4d 9 Al 4c 3.11 .
3 Ti 4d 10 Al 4c 3.11 .
3 Ti 4d 11 Al 4c 3.11 .
3 Ti 4d 12 Al 4c 5.38 .
3 Ti 4d 13 Ni 4b 2.69 .
3 Ti 4d 14 Ni 4b 2.69 .
3 Ti 4d 15 Ni 4b 2.69 .
3 Ti 4d 16 Ni 4b 2.69 .
4 Ti 4d 5 Ti 4a 2.69 .
4 Ti 4d 6 Ti 4a 4.39 .
4 Ti 4d 7 Ti 4a 2.69 .
4 Ti 4d 8 Ti 4a 4.39 .
4 Ti 4d 9 Al 4c 2.69 .
4 Ti 4d 10 Al 4c 2.69 .
4 Ti 4d 11 Al 4c 2.69 .
4 Ti 4d 12 Al 4c 2.69 .
4 Ti 4d 13 Ni 4b 3.11 .
4 Ti 4d 14 Ni 4b 3.11 .
4 Ti 4d 15 Ni 4b 5.38 .
4 Ti 4d 16 Ni 4b 3.11 .
5 Ti 4a 6 Ti 4a 2.69 .
5 Ti 4a 7 Ti 4a 4.39 .
5 Ti 4a 8 Ti 4a 2.69 .
5 Ti 4a 9 Al 4c 5.38 .
5 Ti 4a 10 Al 4c 3.11 .
5 Ti 4a 11 Al 4c 3.11 .
5 Ti 4a 12 Al 4c 3.11 .
5 Ti 4a 13 Ni 4b 2.69 .
5 Ti 4a 14 Ni 4b 2.69 .
5 Ti 4a 15 Ni 4b 2.69 .
5 Ti 4a 16 Ni 4b 2.69 .
6 Ti 4a 7 Ti 4a 2.69 .
6 Ti 4a 8 Ti 4a 4.39 .
6 Ti 4a 9 Al 4c 2.69 .
6 Ti 4a 10 Al 4c 2.69 .
6 Ti 4a 11 Al 4c 2.69 .
6 Ti 4a 12 Al 4c 2.69 .
6 Ti 4a 13 Ni 4b 3.11 .
6 Ti 4a 14 Ni 4b 5.38 .
6 Ti 4a 15 Ni 4b 3.11 .
6 Ti 4a 16 Ni 4b 3.11 .
7 Ti 4a 8 Ti 4a 2.69 .
7 Ti 4a 9 Al 4c 3.11 .
7 Ti 4a 10 Al 4c 5.38 .
7 Ti 4a 11 Al 4c 3.11 .
7 Ti 4a 12 Al 4c 3.11 .
7 Ti 4a 13 Ni 4b 2.69 .
7 Ti 4a 14 Ni 4b 2.69 .
7 Ti 4a 15 Ni 4b 2.69 .
7 Ti 4a 16 Ni 4b 2.69 .
8 Ti 4a 9 Al 4c 2.69 .
8 Ti 4a 10 Al 4c 2.69 .
8 Ti 4a 11 Al 4c 2.69 .
8 Ti 4a 12 Al 4c 2.69 .
8 Ti 4a 13 Ni 4b 5.38 .
8 Ti 4a 14 Ni 4b 3.11 .
8 Ti 4a 15 Ni 4b 3.11 .
8 Ti 4a 16 Ni 4b 3.11 .
9 Al 4c 10 Al 4c 4.39 .
9 Al 4c 11 Al 4c 4.39 .
9 Al 4c 12 Al 4c 4.39 .
9 Al 4c 13 Ni 4b 2.69 .
9 Al 4c 14 Ni 4b 2.69 .
9 Al 4c 15 Ni 4b 2.69 .
9 Al 4c 16 Ni 4b 2.69 .
10 Al 4c 11 Al 4c 4.39 .
10 Al 4c 12 Al 4c 4.39 .
10 Al 4c 13 Ni 4b 2.69 .
10 Al 4c 14 Ni 4b 2.69 .
10 Al 4c 15 Ni 4b 2.69 .
10 Al 4c 16 Ni 4b 2.69 .
11 Al 4c 12 Al 4c 4.39 .
11 Al 4c 13 Ni 4b 2.69 .
11 Al 4c 14 Ni 4b 2.69 .
11 Al 4c 15 Ni 4b 2.69 .
11 Al 4c 16 Ni 4b 2.69 .
12 Al 4c 13 Ni 4b 2.69 .
12 Al 4c 14 Ni 4b 2.69 .
12 Al 4c 15 Ni 4b 2.69 .
12 Al 4c 16 Ni 4b 2.69 .
13 Ni 4b 14 Ni 4b 4.39 .
13 Ni 4b 15 Ni 4b 4.39 .
13 Ni 4b 16 Ni 4b 4.39 .
14 Ni 4b 15 Ni 4b 4.39 .
14 Ni 4b 16 Ni 4b 4.39 .
15 Ni 4b 16 Ni 4b 4.39 .
Jij: magnetic exchange parameter between site i and j (Individual Jij values are temporarily not available while we perform maintenance.)
Terms and conditions

Pair-resolved magnetic exchange parameters:

Exchange coupling parameters

Individual exchange parameters:

Exchange coupling parameters

Methods:

DFT calculations

  • exchange-correlation energy functional: GGA-PBE
  • pseudopotential type: PAW
  • cutoff energy: 65.0 Ry
  • k-point grid: (kx, ky, kz) = (None, None, None) for magnetic anisotropy calculations
  • package: QE (v6.3)

LMTO-GF calculations

  • k-point grid: (kx, ky, kz) =
  • energy mesh: 41 points on an elliptical contour
  • package: Questaal (v7)

References:

References

Materials Project: mp-1018016


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