DFT insights into the electronic structure, mechanical behaviour, lattice dynamics and defect processes in the first Sc-based MAX phase Sc2SnC

Hadi, M. A.; Christopoulos, Stavros-Richard G.; Chroneos, Alexander; Naqib, S. H.; Islam, A. K. M. A.

doi:10.21203/rs.3.rs-870934/v1

Cited by 3 publications

(1 citation statement)

References 58 publications

(88 reference statements)

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“…Furthermore, Poisson's ratio is capable of predicting the nature of chemical bonds between atoms in solids. 44 A fully covalent bond will exist in a crystal if its Poisson's ratio is equal to or less than 0.10. A compound with a Poisson's ratio equal to or greater than 0.33 is expected to be fully metallic-bonded.…”

Section: ■ Computational Methodsmentioning

confidence: 99%

Role of Chalcogen Atoms as an A-Site Element on the Physical Properties of 211 MAX Phases in the Hf–A–B System

Hadi

2023

J. Phys. Chem. C

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The dual character of MAX phases with ceramic and metallic properties and their numerous technological applications continue to increase the attention of materials scientists towards them. The recent synthesis of boride MAX phases with chalcogen atoms at the A-site is an important addition to the MAX phase family and has further expanded the diversity of the physical properties of this family. Here, density functional theory calculations were employed to understand the role of chalcogen atoms at the A-site on the structural, mechanical, lattice dynamic, thermal, electronic, and optical properties of Hf 2 SB, Hf 2 SeB, and Hf 2 TeB. In the Hf−A−B system of the 211 MAX family, most of the physical properties decrease as the chalcogen atom A moves from S to Te via Se, while the lattice parameters show a gradual increase. All compounds under study are brittle in nature. Their elastic, electronic, and optical properties exhibit an anisotropic nature. They have the potential to be etched into two-dimensional MXenes and become thermal barrier coating materials. Also, they will reduce solar heating when used as a coating material.

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Section: ■ Computational Methodsmentioning

confidence: 99%

Role of Chalcogen Atoms as an A-Site Element on the Physical Properties of 211 MAX Phases in the Hf–A–B System

Hadi

2023

J. Phys. Chem. C

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Optical response, lithiation and charge transfer in Sn-based 211 MAX phases with electron localization function

Hadi¹,

Kelaidis²,

Filippatos³

et al. 2022

Journal of Materials Research and Technology

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Structural, elastic, thermal and mechanical properties of LnTa2O6(Ln Ce-Tb) ceramics from first-principles calculations

Huang

2022

Materials Today Communications

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DFT insights into the electronic structure, mechanical behaviour, lattice dynamics and defect processes in the first Sc-based MAX phase Sc2SnC

Cited by 3 publications

References 58 publications

Role of Chalcogen Atoms as an A-Site Element on the Physical Properties of 211 MAX Phases in the Hf–A–B System

Role of Chalcogen Atoms as an A-Site Element on the Physical Properties of 211 MAX Phases in the Hf–A–B System

Optical response, lithiation and charge transfer in Sn-based 211 MAX phases with electron localization function

Structural, elastic, thermal and mechanical properties of LnTa2O6(Ln Ce-Tb) ceramics from first-principles calculations

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