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Structural formula: H2

Force-field: PdAgH_MorsePd3Ag.eam.alloy

Space group : P2/m

JARVIS ID: JLMP-1399

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Elastic tensor (GPa)

Elastic tensor for the conventional cell of the system were calculated with LAMMPS in.elastic script at 0 K [Source] . Similar script can be used for temperature dependent elastic constants and will be available here soon. WARNING! Please note that the starting lattice parameters of crystal structures were taken from density functional theory (DFT) and not from experiments. Generic minimization parameters were chosen for LAMMPS run rather than testing them for each individual case such as energy convergence criterion and so on. Hence, there are chances that the calculation gets trapped in a local energy minima. Please read carefully the assumptions taken during calculations in the in.elastic script and use the data at your own risk

219.8 28.7 88.0 0.0 19.6 -0.0
28.7 581.4 29.0 0.0 -0.3 0.0
88.0 29.0 219.9 0.0 -6.6 0.0
0.0 0.0 0.0 -19.0 -0.0 0.7
19.6 -0.3 -6.6 -0.0 64.0 -0.0
-0.0 0.0 0.0 0.7 -0.0 -61.6

Bv: 145.8 GPa

Gv: 55.0 GPa

Vacancy-formation energy (eV)

Vacancy formation energies were calculated by deleting the symmterically distinct atoms in the system [Source]. In the table, vacancy forming element, its multiplicity, and defect-formation energy are given. The reference element cohesive energies were calculated with the most stable structure for the element found on materials project database. Defect structures were constructed with the fully-relaxed bulk system as input. For defect-structures energetics calculations, constant volume ensemble was used. We impose the defect structures to be at least 1.5 nm large in all directions.

Element Mult. Value
H 1 1.04 Download cif file

Surface energy (J/m2)

Surface energies were calculated for symmterically distinct crystal surfaces . In the table, (hkl) indices and surface enegies are given. For surface-structure energetics, constant volume ensemble was used. We impose the slab thickness to be at least 2 nm and vaccum size of 2.5 nm. The maximum miller index is taken as 3.

Surface Value
(2 3 2) -2.611 Download cif file
(2 2 -1) -2.153 Download cif file
(1 3 -3) -1.973 Download cif file
(1 2 -2) -1.691 Download cif file
(0 3 2) -1.691 Download cif file
(3 3 -2) -1.658 Download cif file
(2 3 0) -1.638 Download cif file
(3 3 -1) -1.554 Download cif file
(1 1 -1) -1.453 Download cif file
(1 1 0) -1.335 Download cif file
(0 1 1) -1.331 Download cif file
(2 1 -2) -1.267 Download cif file
(2 1 0) -1.251 Download cif file
(3 1 -3) -1.167 Download cif file
(3 1 0) -1.095 Download cif file
(0 1 3) -1.057 Download cif file
(1 0 0) -1.029 Download cif file
(1 0 -1) -1.029 Download cif file
(2 1 2) -0.915 Download cif file
(0 0 1) -0.769 Download cif file
(2 0 1) -0.706 Download cif file
(3 0 1) -0.674 Download cif file
(2 0 -1) -0.662 Download cif file
(1 0 2) -0.634 Download cif file
(1 0 -2) -0.63 Download cif file
(1 0 1) -0.602 Download cif file
(3 0 -2) -0.6 Download cif file
(2 0 -3) -0.585 Download cif file
(1 0 -3) -0.558 Download cif file
(2 0 3) -0.549 Download cif file
(3 0 2) -0.516 Download cif file
(3 0 -1) -0.491 Download cif file
(1 0 3) -0.469 Download cif file
(1 2 0) -0.418 Download cif file
(0 2 3) -0.389 Download cif file
(0 2 1) -0.374 Download cif file
(3 2 0) -0.36 Download cif file
(2 3 -2) -0.339 Download cif file
(1 3 0) -0.294 Download cif file
(0 3 1) -0.284 Download cif file
(3 1 3) -0.279 Download cif file
(0 1 2) -0.246 Download cif file
(3 3 2) -0.14 Download cif file
(2 3 3) -0.127 Download cif file
(3 2 -1) -0.106 Download cif file
(3 2 -3) -0.084 Download cif file
(1 3 3) -0.075 Download cif file
(1 2 2) -0.072 Download cif file
(2 1 -1) -0.065 Download cif file
(3 2 -2) -0.019 Download cif file
(2 3 -1) 0.088 Download cif file
(2 2 -3) 0.103 Download cif file
(1 1 1) 0.125 Download cif file
(3 3 1) 0.167 Download cif file
(1 2 -3) 0.255 Download cif file
(1 3 2) 0.29 Download cif file
(2 2 1) 0.297 Download cif file
(1 1 -2) 0.327 Download cif file
(2 3 1) 0.334 Download cif file
(3 2 2) 0.514 Download cif file
(3 1 -1) 0.56 Download cif file
(1 2 3) 0.586 Download cif file
(3 2 1) 0.681 Download cif file
(1 3 -2) 0.931 Download cif file
(1 1 3) 1.022 Download cif file
(3 1 -2) 1.108 Download cif file
(1 2 1) 1.477 Download cif file
(2 3 -3) 1.542 Download cif file
(0 1 0) 1.557 Download cif file
(1 2 -1) 1.559 Download cif file
(2 1 1) 1.645 Download cif file
(3 1 1) 1.675 Download cif file
(2 1 -3) 1.682 Download cif file
(1 3 -1) 1.69 Download cif file
(1 1 -3) 1.713 Download cif file
(1 3 1) 1.727 Download cif file
(3 1 2) 1.742 Download cif file
(2 1 3) 1.783 Download cif file
(1 1 2) 2.519 Download cif file
(2 2 3) 2.756 Download cif file
(3 2 3) 2.892 Download cif file

Phonon

Phonons were obtained by making an interface of JARVIS-FF with Phonopy package at 0 K [Source] . For deformed-structures, constant volume ensemble was used. The deofrmed structures were taken of at least 1.5 nm size in all directions. The band-indices for phonon bandstructure was obtained with Pymatgen. The phonon representation were obtained with phonopy. "I" and "R" denotes infrared and Raman active modes respectively

Visualize Phonons here
Phonon mode (cm-1) Representation
-4.36913e-05 None
All phonon mode at Gamma point (cm-1)
-4.36913e-05
3.02996e-05
4.94826e-05

See also

Links to other databases or papers are provided below

JVASP-25330

mp-754417

Energy above hull from mp (eV): 4.4408920985e-16