Structural, Elastic, and Electronic Properties of Newly Discovered Li2PtSi3 Superconductor: Effect of Transition Metals

Alam, Mahfooz; Hadi, M. A.; Nasir, M. T.; Roknuzzaman, M.; Parvin, F.; Zilani, M.A.K.; Islam, A. K. M. A.; Naqib, S. H.

doi:10.1007/s10948-016-3619-7

Cited by 24 publications

(15 citation statements)

References 26 publications

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“…The electron-phonon interaction potential appears to be much stronger in ScIrP compared to ScRhP. It is quite interesting to note that the superconducting state properties of these two ternary phosphides are almost identical to those of recently discovered hexagonal ternary silicide compounds, Li 2 IrSi 3 and Li 2 PtSi 3 [45,46]…”

supporting

confidence: 56%

First‐Principles Study of Superconducting ScRhP and ScIrP pnictides

Nasir

Hadi

Rayhan

et al. 2017

Physica Status Solidi (b)

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For the first time, we have reported in this study an ab initio investigation on elastic properties, Debye temperature, Mulliken population, Vickers hardness, and charge density of the two recently synthesized superconducting ScRhP and ScIrP pnictides. The optimized cell parameters show fair agreement with the experimental results. The mechanical stability of both ternary phosphides is confirmed via the calculated elastic constants. Both compounds are ductile in nature and damage tolerant. ScIrP is expected to be elastically more anisotropic than ScRhP. The estimated value of Debye temperature predicts that ScRhP is thermally more conductive than ScIrP and the phonon frequency in ScRhP is higher than that in ScIrP. Both pnictides are soft and easily machinable due to their low Vickers hardness. Moreover, the hardness of ScRhP is lower due to the presence of antibonding Rh–Rh in ScRhP. The metallic conductivity of ScRhP reduces significantly when Rh is replaced with Ir. The main contribution to the total density of states (TDOS) at Fermi‐level (EF) comes from d‐electrons of Sc and Rh/Ir in both pnictides. These two ternary compounds are characterized mainly by metallic and covalent bonding with little ionic contribution. The calculated superconducting transition temperatures fairly coincide with the reported measured values.

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supporting

confidence: 56%

First‐Principles Study of Superconducting ScRhP and ScIrP pnictides

Nasir

Hadi

Rayhan

et al. 2017

Physica Status Solidi (b)

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“…In this investigation we have concentrated on the bulk electronic, optical and mechanical properties of orthorhombic MoTe 2 . Variety of prior studies on diverse class of materials showed that [26][27][28][29][30], as far as optimization of the cell structure, bulk elastic constants, bonding and bulk optical properties are concerned, SOC only has a minimal effect. Within the bulk electronic band structure, SOC mainly reveals itself in split bands with splitting energy of the order of tens of meV.…”

Section: Methods and Crystal Structurementioning

confidence: 99%

Ab initio approach to the elastic, electronic, and optical properties of MoTe2 topological Weyl semimetal

Rano

Syed

Naqib

2020

Journal of Alloys and Compounds

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“…The large TDOS is a sign of high metallicity the compound. The TDOS at the Fermi level is quite high compared to some other recently discovered ternary superconducting compounds [52,53]. This may be responsible for the higher superconducting transition temperature in LaRu 2 As 2 , compared to, for example, in ternary silicides [54].…”

Section: Band Structure and Density Of Statesmentioning

confidence: 90%

New ternary superconducting compound LaRu ₂ As ₂ : Physical properties from density functional theory calculations

Hadi¹,

Ali²,

Naqib³

et al. 2017

Chinese Phys. B

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In this paper, we have presented the density functional theory (DFT) based calculations performed within the first-principles pseudopotential method to investigate the physical properties of the newly discovered superconductor LaRu 2 As 2 for the first time. The optimized structural parameters are in good agreement with the experimental results. The calculated independent elastic constants ensure the mechanical stability of the compound. The calculated Cauchy pressure, Pugh's ratio as well as Poisson's ratio indicate that LaRu 2 As 2 should behave as a ductile material. Due to low Debye temperature, LaRu 2 As 2 may be used as a thermal barrier coating (TBC) material. The new compound should exhibit metallic nature as its valence bands overlap considerably with the conduction bands. LaRu 2 As 2 is expected to be a soft material and easily machineable because of its low hardness value of 6.8 GPa. The multi-band nature is observed in calculated Fermi surface. A highly anisotropic combination of ionic, covalent, and metallic interactions is expected in accordance with charge density calculations.

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Structural, Elastic, and Electronic Properties of Newly Discovered Li2PtSi3 Superconductor: Effect of Transition Metals

Cited by 24 publications

References 26 publications

First‐Principles Study of Superconducting ScRhP and ScIrP pnictides

First‐Principles Study of Superconducting ScRhP and ScIrP pnictides

Ab initio approach to the elastic, electronic, and optical properties of MoTe2 topological Weyl semimetal

New ternary superconducting compound LaRu ₂ As ₂ : Physical properties from density functional theory calculations

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Structural, Elastic, and Electronic Properties of Newly Discovered Li2PtSi3 Superconductor: Effect of Transition Metals

Cited by 24 publications

References 26 publications

First‐Principles Study of Superconducting ScRhP and ScIrP pnictides

First‐Principles Study of Superconducting ScRhP and ScIrP pnictides

Ab initio approach to the elastic, electronic, and optical properties of MoTe2 topological Weyl semimetal

New ternary superconducting compound LaRu 2 As 2 : Physical properties from density functional theory calculations

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Product

Resources

About

New ternary superconducting compound LaRu ₂ As ₂ : Physical properties from density functional theory calculations