Na2ZnH6: A 53K conventional superconductor near ambient pressure

IF 4.3 3区材料科学 Q2 CHEMISTRY, MULTIDISCIPLINARY

Journal of Physics and Chemistry of Solids Pub Date : 2025-03-13 DOI:10.1016/j.jpcs.2025.112702

Manish Kumar, Finley Marak, Jagdish Kumar

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引用次数: 0

Abstract

Ternary hydride Na₂ZnH₆ has been studied by employing density functional theory calculations. Our results find that Na₂ZnH₆ is dynamically stable but mechanically unstable at ambient pressure and exhibits strong electron-phonon coupling with

λ = 2.42

. However, above 2.5 GPa pressure the crystal is mechanically as well as dynamically stable and exhibit strong electron-phonon coupling leading to significantly high T_c of ∼39K. The crystal is dynamically stable up to the isotropic pressure of 30 GPa. With increase in pressure, the electron-phonon coupling constant

λ

and electronic density of states at Fermi level, N(E_F), decreases monotonously. But due to the anomalous trend in

ω_{\log}

, the transition temperature, T_c, increases to a maximum of ∼53K at 5 GPa, followed by a drop to a minimum of ∼19K at 10 GPa. The T_c increases further till the pressure of 30 GPa and attains a maximum value of 58K. At 40 GPa and above, Na₂ZnH₆ becomes dynamically unstable and exhibits imaginary phonon frequencies. Our investigations offer an important input to experimentalists to investigate this new ternary hydride having reasonably high T_c near ambient pressure.

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Na2ZnH6：一种近环境压力的53K常规超导体

采用密度泛函理论对三元氢化物Na2ZnH6进行了研究。我们的研究结果发现Na2ZnH6在环境压力下是动态稳定的，但机械不稳定，并表现出强的电子-声子耦合，λ=2.42。然而，在2.5 GPa压力以上，晶体在机械和动态上都是稳定的，并表现出强烈的电子-声子耦合，导致显著的高Tc （~ 39K）。该晶体在各向同性压力为30gpa时动态稳定。随着压力的增加，电子-声子耦合常数λ和费米能级电子态密度N（EF）单调减小。但由于ωlog的异常趋势，转变温度Tc在5 GPa时上升到最大值~ 53K，随后在10 GPa时下降到最小值~ 19K。当压力达到30gpa时，Tc进一步增大，达到最大值58K。在40gpa及以上时，Na2ZnH6变得动态不稳定，呈现虚声子频率。我们的研究为实验人员研究这种在环境压力下具有合理高Tc的新型三元氢化物提供了重要的输入。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Physics and Chemistry of Solids 工程技术-化学综合

CiteScore

7.80

自引率

2.50%

发文量

605

审稿时长

40 days

期刊介绍： The Journal of Physics and Chemistry of Solids is a well-established international medium for publication of archival research in condensed matter and materials sciences. Areas of interest broadly include experimental and theoretical research on electronic, magnetic, spectroscopic and structural properties as well as the statistical mechanics and thermodynamics of materials. The focus is on gaining physical and chemical insight into the properties and potential applications of condensed matter systems. Within the broad scope of the journal, beyond regular contributions, the editors have identified submissions in the following areas of physics and chemistry of solids to be of special current interest to the journal: Low-dimensional systems Exotic states of quantum electron matter including topological phases Energy conversion and storage Interfaces, nanoparticles and catalysts.