Ba2ScNbO6 和 Ba2LuNbO6 的非赫米特键合和电子重构

IF 2.2 4区物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY

Annalen der Physik Pub Date : 2024-05-30 DOI:10.1002/andp.202400040

Yaorui Tan, Maolin Bo

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引用次数: 0

摘要

尽管包晶石化合物应用广泛，但人们对这些材料中非ermitian 键的确切性质仍然知之甚少。本研究通过密度泛函理论计算确定了透辉石化合物的电子结构。其中，发现 Ba2ScNbO6 和 Ba2LuNbO6 的带隙分别为 2.617 和 2.629 eV，并计算了这些化合物的变形键能和非ermitian 键。发现 Ba2ScNbO6 的 O-Nb 键的非ermitian 零点与 Sc-O 键的非ermitian 零点关系相似，但大小不同。此外，对非ermitian 化学的深入研究验证了可以实现对原子键和电子状态的精确控制，为化学键的研究提供了新的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Non-Hermitian Bonding and Electronic Reconfiguration of Ba2ScNbO6 and Ba2LuNbO6

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Non-Hermitian Bonding and Electronic Reconfiguration of Ba2ScNbO6 and Ba2LuNbO6

Despite the extensive applications of perovskite compounds, the precise nature of non-Hermitian bonding in these materials remains poorly understood. In this study, density functional theory calculations are performed to determine the electronic structures of perovskite compounds. In particular, the bandgaps of Ba₂ScNbO₆ and Ba₂LuNbO₆ are found to be 2.617 and 2.629 eV, respectively, and the deformation bond energies and non-Hermitian bonding of these compounds are calculated. The relationship between the non-Hermitian zeros of the O-Nb bond of Ba₂ScNbO₆ and the non-Hermitian zeros of the Sc-O bond is found to be similar but with varying sizes. Further, in-depth research on non-Hermitian chemistry verified that precise control of atomic bonding and electron states can be achieved, providing new insights into the study of chemical bonds.

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来源期刊

Annalen der Physik 物理-物理：综合

CiteScore

4.50

自引率

8.30%

发文量

202

审稿时长

3 months

期刊介绍： Annalen der Physik (AdP) is one of the world''s most renowned physics journals with an over 225 years'' tradition of excellence. Based on the fame of seminal papers by Einstein, Planck and many others, the journal is now tuned towards today''s most exciting findings including the annual Nobel Lectures. AdP comprises all areas of physics, with particular emphasis on important, significant and highly relevant results. Topics range from fundamental research to forefront applications including dynamic and interdisciplinary fields. The journal covers theory, simulation and experiment, e.g., but not exclusively, in condensed matter, quantum physics, photonics, materials physics, high energy, gravitation and astrophysics. It welcomes Rapid Research Letters, Original Papers, Review and Feature Articles.