Electronic transport evolution across the successive structural transitions in Ni50–xFexTi50 shape memory alloys

He 何, Ping 萍; Yang 杨, Jinying 金颖; Ren 任, Qiusa 秋飒; Wang 王, Binbin 彬彬; Wu 吴, Guangheng 光恒; Liu 刘, Enke 恩克

doi:10.1088/1674-1056/ad39d3

Chinese Phys. B

2024

DOI: 10.1088/1674-1056/ad39d3

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Electronic transport evolution across the successive structural transitions in Ni_50–xFe_xTi₅₀ shape memory alloys

Ping 萍 He 何,

Jinying 金颖 Yang 杨,

Qiusa 秋飒 Ren 任

et al.

Abstract: TiNi-based shape memory alloys have been extensively investigated owing to their significant applications, but a comprehensive understanding of the evolution of electronic structure and electrical transport in a system with martensitic transformations (MT) is still lacking. In this work, we focused on the electronic transport behaviors of three phases in Ni50-x Fe x Ti50 across the MT. A phase diagram of Ni50-x Fe x… Show more

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Electronic Structure Evolution during Martensitic Phase Transition in All-d-Metal Heusler Compounds: The Case of Pd₂MnTi

Li 李,

Wang 王,

Liu 刘

2024

Chinese Phys. Lett.

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In this study, taking Pd2MnTi as a representative example, the electronic structure evolution during martensitic phase transition in all-d-metal Heusler compounds was systematically studied and revealed theoretically. The calculation and theoretical analysis suggest that Pd2MnTi is not stable in cubic structure and prones to transform to low-symmetric tetragonal structure. By tetragonal deformation, the shrinkage of lattice parameters and the decrease of symmetry promote the electron accumulation between Pd and its first nearest neighboring Ti atom, resulting in the increased covalent hybridization. The occurrence of pesudogap in density of states (DOSs) of tetragonal Pd2MnTi near the Fermi level also verifies the enhancement of covalent bond. Comparatively, the stronger interatomic bond in tetragonal Pd2MnTi, i.e., covalent bond here, would strengthen interatomic coupling and consequently lower the energy of the material. By the martensitic phase transition, more stable state in energy was achieved. Thus, based on the analysis of electronic structure evolution, the nature of martensitic phase transition is a process wherein symmetry breaking weakens the original weak chemical bonds in high-symmetric parent phase and induces the strong chemical bond to lower the energy of the materials and achieve a more stable state. This study could help to deepen the understanding of martensitic phase transition and the exploration of novel materials for potential technical applications.

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Electronic Structure Evolution during Martensitic Phase Transition in All-d-Metal Heusler Compounds: The Case of Pd₂MnTi

Li 李,

Wang 王,

Liu 刘

2024

Chinese Phys. Lett.

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Electronic transport evolution across the successive structural transitions in Ni_50–xFe_xTi₅₀ shape memory alloys

Cited by 1 publication

References 46 publications

Electronic Structure Evolution during Martensitic Phase Transition in All-d-Metal Heusler Compounds: The Case of Pd₂MnTi

Electronic Structure Evolution during Martensitic Phase Transition in All-d-Metal Heusler Compounds: The Case of Pd₂MnTi

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Electronic transport evolution across the successive structural transitions in Ni50–xFexTi50 shape memory alloys

Cited by 1 publication

References 46 publications

Electronic Structure Evolution during Martensitic Phase Transition in All-d-Metal Heusler Compounds: The Case of Pd2MnTi

Electronic Structure Evolution during Martensitic Phase Transition in All-d-Metal Heusler Compounds: The Case of Pd2MnTi

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Electronic transport evolution across the successive structural transitions in Ni_50–xFe_xTi₅₀ shape memory alloys

Electronic Structure Evolution during Martensitic Phase Transition in All-d-Metal Heusler Compounds: The Case of Pd₂MnTi

Electronic Structure Evolution during Martensitic Phase Transition in All-d-Metal Heusler Compounds: The Case of Pd₂MnTi