Exploring ferromagnetic half-metallic nature of Cs<sub>2</sub>NpBr<sub>6</sub> via spin polarized density functional theory*

Ali, Malak Azmat; Murtaza, G.; Laref, A.

doi:10.1088/1674-1056/ab7da4

Cited by 19 publications

(13 citation statements)

References 27 publications

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“…It is found that the band gap of the Cr-doped sample is smaller (2.312 eV) than that of the pristine sample (2.664 eV), demonstrating that the Cr doping induced improved capability for carrying both electrons and ions. In addition, the band structure can be divided into two paired lines, which correspond to the ±1/2 spin quantum number (up and down for +1/2 and −1/2) . The two paired lines in Na 3 V 2 (PO 4 ) 3 are well overlapped, while in Na 3 V 1.5 Cr 0.5 (PO 4 ) 3 , some lines are not.…”

Section: Results and Discussionmentioning

confidence: 99%

Activating a Multielectron Reaction of NASICON-Structured Cathodes toward High Energy Density for Sodium-Ion Batteries

et al. 2021

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The increasing demand to efficiently store and utilize the electricity from renewable energy resources in a sustainable way has boosted the request for sodium-ion battery technology due to the high abundance of sodium sources worldwide. Na superionic conductor (NASICON) structured cathodes with a robust polyanionic framework have been intriguing because of their open 3D structure and superior thermal stability. The ever-increasing demand for higher energy densities with NASICON-structured cathodes motivates us to activate multielectron reactions, thus utilizing the third sodium ion toward higher voltage and larger capacity, both of which have been the bottlenecks for commercializing sodium-ion batteries. A doping strategy with Cr inspired by first-principles calculations enables the activation of multielectron redox reactions of the redox couples V2+/V3+, V3+/V4+, and V4+/V5+, resulting in remarkably improved energy density even in comparison to the layer structured oxides and Prussian blue analogues. This work also comprehensively clarifies the role of the Cr dopant during sodium storage and the valence electron transition process of both V and Cr. Our findings highlight the importance of a broadly applicable doping strategy for achieving multielectron reactions of NASICON-type cathodes with higher energy densities in sodium-ion batteries.

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Section: Results and Discussionmentioning

confidence: 99%

Activating a Multielectron Reaction of NASICON-Structured Cathodes toward High Energy Density for Sodium-Ion Batteries

et al. 2021

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“…12 The alterations in the ratio or replacement of constituent cations and anions in the basic structure of perovskites AMX 3 alter their optoelectronic and magneto electronic properties 13 by resultingA 2 MX 6, 12 AMX 3 14 and A 2 BMX 6 15 like compounds (where, A, B and M are cations, and X is anion). Among the resulting compounds, some are halfmetallic [16][17][18][19][20][21][22][23][24] ferromagnetic having excellent physical properties. These have 100% spin polarization at Fermi level, as; they are metallic in one spin state and insulating or semiconducting in other spin state.…”

Section: Introductionmentioning

confidence: 99%

The significance of anti‐fluorite Cs ₂ NbI ₆ via its structural, electronic, magnetic, optical and thermoelectric properties

et al. 2020

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The structural, electronic, magnetic, optical and thermoelectric properties of anti-fluorite Cs 2 NbI 6 were investigated using full potential augmented plane wave method of density functional theory. Structurally, Cs 2 NbI 6 was found to be cubic in ground state from values of tolerance factor (1.04) and formation energy (−22.3 eV). While, it's ferromagnetic nature was predicted from volume optimization process. In spin down channel, the compound was explored as indirect band gap (E g(Γ-X) = 1.97 eV) semiconductor, while it changes to metallic in upper spin channel. Nb-d and I-p states were exposed as the main cause of spin dependent electronic nature (half-metallicity). The origin of magnetism in Cs 2 NbI 6 was explained on basis of crystal field theory. The calculated magnetic moment (1.001 μ B) was found in reasonable agreement with experimental value. The optimum absorption and optical conductivity spectra in semiconductor state explored Cs 2 NbI 6 as suitable for optoelectronic devices. Furthermore, the transport properties were calculated using BoltzTrap code. The nature of carriers was predicted as n type from negative values of Seebeck coefficients. Where, the figure of merit (ZT) was found to increase up to 0.85 at 900 K. The present work not only explores Cs 2 NbI 6 as potential optoelectronic and thermoelectric material, but can also inspire more experimental research on this important compound.

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“…Our results are consistent with previous results, where the compounds of similar structures were found to be ferromagnetic. [ 27–29 ] We, therefore, consider Config‐II (ferromagnetic state) of these compounds for further calculations.…”

Section: Resultsmentioning

confidence: 99%

“…[ 37 ] If a compound is formed in a chemical reaction with release of energy (exothermic reaction), then it will be stable in the resulting phase. Theoretically, Δ H f can be calculated for the A 2 BX 6 compound by the following relation [ 29 ]

normalΔ H_{f} = E_{Total} ((), A_{2} {BX}_{6}) - 2 E_{A} - E_{B} - 6 E_{x}

where E Total ( A 2 BX 6 ) and E A , E B E x are ground‐state energies of compound A 2 BX 6 and A , B , and X atoms, respectively. The calculated values of Δ H f for Rb 2 TaCl 6 and Rb 2 TaBr 6 are −30.014 and −24.455 eV, respectively.…”

Section: Resultsmentioning

confidence: 99%

“…Recently, K 2 PtCl 6 ‐type cubic perovskite inorganic compounds such as Cs 2 NpBr 6 , K 2 MoCl 6 , Cs 2 MoCl 6 , and Cs 2 MnF 6 have received considerable attention because of their excellent half‐metallic ferromagnetic properties. [ 27–29 ] However, the complete physical properties of these materials are yet to be investigated. In this regard, we select Rb 2 TaZ 6 (Z = Cl, Br) for first‐principles calculations of their magnetic and spin‐dependent transport properties along with crystal structure analysis.…”

Section: Introductionmentioning

confidence: 99%

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Magnetoelectronic properties of ferromagnetic compounds Rb₂TaZ₆ (Z = Cl, Br) for possible spintronic applications

Ali

Murtaza

Khan

et al. 2020

Int J of Quantum Chemistry

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Highly spin‐polarized ferromagnetic materials are essential for efficient spintronic devices. Here, 100% spin‐polarized compounds Rb2TaZ6 (Z = Cl, Br) studied via density functional theory are reported. These compounds show stability in the ferromagnetic phase with cubic symmetry and half metallic behavior, thereby exhibiting a nonzero direct band gap in the spin‐down channel and zero band gap in the spin‐up configuration. The Ta‐d sates contribute mainly to the net magnetic moments as explained by the crystal field theory and density of states. High Curie temperatures of 960.35 and 1021.74 K for Ra2TaCl6 and Rb2TaBr6, along with maximum spin polarizability, make these compounds favorable for efficient spintronic applications.

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Exploring ferromagnetic half-metallic nature of Cs₂NpBr₆ via spin polarized density functional theory*

Cited by 19 publications

References 27 publications

Activating a Multielectron Reaction of NASICON-Structured Cathodes toward High Energy Density for Sodium-Ion Batteries

Activating a Multielectron Reaction of NASICON-Structured Cathodes toward High Energy Density for Sodium-Ion Batteries

The significance of anti‐fluorite Cs ₂ NbI ₆ via its structural, electronic, magnetic, optical and thermoelectric properties

Magnetoelectronic properties of ferromagnetic compounds Rb₂TaZ₆ (Z = Cl, Br) for possible spintronic applications

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Exploring ferromagnetic half-metallic nature of Cs2NpBr6 via spin polarized density functional theory*

Cited by 19 publications

References 27 publications

Activating a Multielectron Reaction of NASICON-Structured Cathodes toward High Energy Density for Sodium-Ion Batteries

Activating a Multielectron Reaction of NASICON-Structured Cathodes toward High Energy Density for Sodium-Ion Batteries

The significance of anti‐fluorite Cs 2 NbI 6 via its structural, electronic, magnetic, optical and thermoelectric properties

Magnetoelectronic properties of ferromagnetic compounds Rb2TaZ6 (Z = Cl, Br) for possible spintronic applications

Contact Info

Product

Resources

About

Exploring ferromagnetic half-metallic nature of Cs₂NpBr₆ via spin polarized density functional theory*

The significance of anti‐fluorite Cs ₂ NbI ₆ via its structural, electronic, magnetic, optical and thermoelectric properties

Magnetoelectronic properties of ferromagnetic compounds Rb₂TaZ₆ (Z = Cl, Br) for possible spintronic applications