从热电方面模拟和探索稳健且环保的双包晶石 X2AgFeBr6（X = Na、Li

IF 4.4 3区化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR Inorganic Chemistry Communications Pub Date : 2024-11-06 DOI:10.1016/j.inoche.2024.113488

Mawaheb Al-Dossari , Saima Zafar , Ahmad M. Saeedi , Fawad Khan , Adeela Afzal , Raed H. Althomali , Gideon F.B. Solre , Syed Zuhair Abbas Shah , Sana Ullah Asif , A. Alqahtani

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引用次数: 0

摘要

在这项计算工作中，我们首次详细模拟了坚固且环保的双包晶石 X2AgFeBr6（X = Na、Li），用于涉及热电发电机的绿色能源收集应用。根据戈尔德施密特公差和八面体参数、Burn-Haun 准则、形成能和声子光谱，分别确定了结构、机械和热力学稳定性。电子能带结构和状态密度告诉我们，化合物具有半导体性质，带隙分别为 4.81 eV 和 3.82 eV。在室温（T = 300 K）下，我们观察到了热电参数，如电导率接近 ∼ 1017(Ωms)-1，塞贝克系数高达 531.56 (μV/K)，功率因数在 ∼ 1010 W/msk2 的范围内，优点系数接近 1。这些引人入胜的结果为无铅双包晶石 X2AgFeBr6（X = Na、Li）的合成提供了理论依据，这种包晶石可应用于热电设备。

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Robust and eco-friendly double perovskites X2AgFeBr6 (X = Na, Li) simulations and exploration in terms of thermoelectric aspects

In this computational work, we simulated the robust and eco-friendly double perovskites X₂AgFeBr₆ (X = Na, Li) for the first time in detail for green energy harvesting applications involving thermoelectric generators. The structural, mechanical, and thermodynamic stability is assured from the Goldschmidt’s tolerance and octahedral parameters, Burn-Haun criterion, formation energies, and phonon spectra respectively. The electronic band structures and density of states informed us the semiconducting nature of the compounds with band gaps of 4.81 eV, and 3.82 eV. The thermoelectric parameters like electrical conductivity close to ∼ 10¹⁷(Ωms)^-1, Seebeck coefficients up to 531.56 (μV/K), power factor in range of ∼ 10¹⁰ W/msk², and figure of merits close to one are observed at room temperature (T = 300 K). These fascinating results provide a theoretical basis for the synthesis of lead-free double perovskites X₂AgFeBr₆ (X = Na, Li), which find applications in thermoelectric devices.

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来源期刊

Inorganic Chemistry Communications 化学-无机化学与核化学

CiteScore

5.50

自引率

7.90%

发文量

1013

审稿时长

53 days

期刊介绍： Launched in January 1998, Inorganic Chemistry Communications is an international journal dedicated to the rapid publication of short communications in the major areas of inorganic, organometallic and supramolecular chemistry. Topics include synthetic and reaction chemistry, kinetics and mechanisms of reactions, bioinorganic chemistry, photochemistry and the use of metal and organometallic compounds in stoichiometric and catalytic synthesis or organic compounds.