The Rise of 212 MAX Phase Borides: DFT Insights into the Physical Properties of Ti2PB2, Zr2PbB2, and Nb2AB2 [A = P, S] for Thermomechanical Applications

Ali, M. A.; Hossain, M. M.; Uddin, M. M.; Islam, A. K. M. A.; Naqib, S. H.

doi:10.1021/acsomega.2c06331

Cited by 15 publications

(2 citation statements)

References 117 publications

(249 reference statements)

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“…This metallic nature of the Mo 4 Y 2 Al 3 B 6 compound is analogous with other 212 MAX phases like Ti 2 PB 2 , Zr 2 PbB 2 , Nb 2 AB 2 [A = P, S], and Hf 2 AB 2 (A = In, Sn) boride compounds [35,36]. The electrical anisotropy can also be perceived from the band structure where the paths A-H, K-Γ, Γ-M, and L-H indicate the basal plane (ab) and the paths Γ-A, H-K, and M-L indicate the c-direction.…”

Section: Structural Propertiessupporting

confidence: 57%

DFT insights into i-MAB phase, Mo₄Y₂Al₃B₆: a potential thermal barrier coating and solar heat reducing material

Islam,

Rana,

Das

et al. 2024

Phys. Scr.

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We have investigated the physical properties of the i-MAB: Mo4Y2Al3B6 phase via the density functional theory (DFT) approach. The optical properties, thermal properties, and Vickers hardness of the compound Mo4Y2Al3B6 have been studied theoretically for the first time. The correctness of the fine-tuned structural parameters is confirmed by their close match with experimental results. The compound's metallic nature is established by an analysis of its electronic band structure, which is demonstrated by the overlap of the valence and conduction bands at the Fermi level. The mechanical and dynamic stability of the compound is supported by the single crystal elastic constants and computed phonon dispersion curve. The brittleness and machinability index has been studied to predict its usefulness in any form/shape. The compound's ability to be exfoliated into 2D nanosheets has been proven by the f-index value. The obtained Vickers hardness value indicate the materials' softness and ease of machining, aligning with the experimental findings. The thermodynamic properties are evaluated through phonon dispersion curves, including Debye temperature, free energy, enthalpy, entropy, and specific heat capacity. The potential of Mo4Y2Al3B6 as a thermal barrier coating (TBC) material is demonstrated by its low minimum thermal conductivity (Kmin), low volume expansion coefficient and high melting temperature (Tm). Key optical parameters, including dielectric functions, refractive index, photoconductivity, reflectivity, absorption coefficient, and loss function, have been computed and analyzed. The reflectivity spectrum suggests that the titled compound acts as a promising coating material for mitigating solar heating.

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Section: Structural Propertiessupporting

confidence: 57%

DFT insights into i-MAB phase, Mo₄Y₂Al₃B₆: a potential thermal barrier coating and solar heat reducing material

Islam,

Rana,

Das

et al. 2024

Phys. Scr.

Self Cite

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“…The calculated minimum thermal conductivities are tabulated below (Table 8). The minimum thermal conductivity of BaAgAs is very low, comparable to many prospective thermal barrier coating (TBC) materials [73,74].…”

Section: Thermal Conductivitymentioning

confidence: 99%

Ab-Initio Investigation of the Physical Properties of Baagas Dirac Semimetal and its Possible Thermo-Mechanical and Optoelectronic Applications

Reza

Naqib

2023

Preprint

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Newly synthesized Pb-based 312 MAX phases M3PbC2 (M = Zr and Hf): A First-principles study

Rana,

Islam,

Hoque

et al. 2024

Diamond and Related Materials

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The Rise of 212 MAX Phase Borides: DFT Insights into the Physical Properties of Ti₂PB₂, Zr₂PbB₂, and Nb₂AB₂ [A = P, S] for Thermomechanical Applications

Cited by 15 publications

References 117 publications

DFT insights into i-MAB phase, Mo₄Y₂Al₃B₆: a potential thermal barrier coating and solar heat reducing material

DFT insights into i-MAB phase, Mo₄Y₂Al₃B₆: a potential thermal barrier coating and solar heat reducing material

Ab-Initio Investigation of the Physical Properties of Baagas Dirac Semimetal and its Possible Thermo-Mechanical and Optoelectronic Applications

Newly synthesized Pb-based 312 MAX phases M3PbC2 (M = Zr and Hf): A First-principles study

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The Rise of 212 MAX Phase Borides: DFT Insights into the Physical Properties of Ti2PB2, Zr2PbB2, and Nb2AB2 [A = P, S] for Thermomechanical Applications

Cited by 15 publications

References 117 publications

DFT insights into i-MAB phase, Mo4Y2Al3B6: a potential thermal barrier coating and solar heat reducing material

DFT insights into i-MAB phase, Mo4Y2Al3B6: a potential thermal barrier coating and solar heat reducing material

Ab-Initio Investigation of the Physical Properties of Baagas Dirac Semimetal and its Possible Thermo-Mechanical and Optoelectronic Applications

Newly synthesized Pb-based 312 MAX phases M3PbC2 (M = Zr and Hf): A First-principles study

Contact Info

Product

Resources

About

The Rise of 212 MAX Phase Borides: DFT Insights into the Physical Properties of Ti₂PB₂, Zr₂PbB₂, and Nb₂AB₂ [A = P, S] for Thermomechanical Applications

DFT insights into i-MAB phase, Mo₄Y₂Al₃B₆: a potential thermal barrier coating and solar heat reducing material

DFT insights into i-MAB phase, Mo₄Y₂Al₃B₆: a potential thermal barrier coating and solar heat reducing material