Novel properties of vacancy-ordered perovskite-Cs2BCl6 induced by d-orbital electrons

IF 8.4 1区 材料科学 Q1 CHEMISTRY, PHYSICAL
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Abstract

The all-inorganic lead-free vacancy-ordered perovskite offers a promising avenue toward nontoxic and stable optoelectronic materials. Herein, we present a first-principles study of the structural stability, optical absorption, electronic structure, and mechanical behavior of Cs2BCl6 compounds with B-site substitutions (BGe, Sn, Pb, Cr, Mo, W, Ti, Zr, and Hf). The structural analysis shows that the Cs2BCl6 perovskite with face-centered cubes has a stable chemical environment, especially Cs2HfCl6, Cs2WCl6, and Cs2PbCl6. Hf4+ and W4+ with high-energy d-state external electron configurations can further lower the valence band maximum position of the Cs2BCl6 structures and thus increase the band gap, assisting in tuning the optical absorption and emission properties of these structures in the optoelectronic application. For the light absorption properties of Cs2BCl6 materials, the best light absorption properties have been concluded for Ti4+, Cr4+, and Pb4+-based perovskite in the visible range due to a suitable band gap. Therefore, the excellent optical absorption and electronic properties make these vacancy-ordered perovskites promising candidates for optoelectronic applications.

Abstract Image

d 轨道电子诱导的空位有序透辉石-Cs2BCl6 的新特性
全无机无铅空位有序包晶为实现无毒、稳定的光电材料提供了一条前景广阔的途径。在此,我们对具有 B 位取代(BGe、Sn、Pb、Cr、Mo、W、Ti、Zr 和 Hf)的 Cs2BCl6 化合物的结构稳定性、光吸收、电子结构和力学行为进行了第一性原理研究。结构分析表明,面心立方的 Cs2BCl6 包晶具有稳定的化学环境,尤其是 Cs2HfCl6、Cs2WCl6 和 Cs2PbCl6。具有高能量 d 态外部电子构型的 Hf4+ 和 W4+ 能进一步降低 Cs2BCl6 结构的价带最大位置,从而增大带隙,有助于调整这些结构在光电应用中的光吸收和发射特性。在 Cs2BCl6 材料的光吸收特性方面,基于 Ti4+、Cr4+ 和 Pb4+ 的包晶由于具有合适的带隙,在可见光范围内具有最佳的光吸收特性。因此,优异的光吸收和电子特性使这些空位有序的包晶石成为光电应用的理想候选材料。
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来源期刊
Journal of Materiomics
Journal of Materiomics Materials Science-Metals and Alloys
CiteScore
14.30
自引率
6.40%
发文量
331
审稿时长
37 days
期刊介绍: The Journal of Materiomics is a peer-reviewed open-access journal that aims to serve as a forum for the continuous dissemination of research within the field of materials science. It particularly emphasizes systematic studies on the relationships between composition, processing, structure, property, and performance of advanced materials. The journal is supported by the Chinese Ceramic Society and is indexed in SCIE and Scopus. It is commonly referred to as J Materiomics.
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