Geometrical and electronic properties of Sin (n = 6–15) clusters with rhodium impurity: a first-principles investigation

IF 2.1 4区化学 Q3 CHEMISTRY, MULTIDISCIPLINARY

Structural Chemistry Pub Date : 2024-07-22 DOI:10.1007/s11224-024-02360-y

Zai-Fu Jiang, Hua-Long Jiang, Chang-Geng Luo, Shuai Zhang, Gen-Qquan Li

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Abstract

To delve into the microscopic property of the cluster RhSi_n (n = 6–15), this study employs the CALYPSO structure prediction program and density functional theory. The paper conducts a comprehensive theoretical analysis of the clusters, examining parameters such as structures, relative stabilities, charge transfer, vertical electron affinity, vertical ionization potential, chemical potential, chemical hardness, and infrared and Raman spectra. The optimization process reveals that the rhodium doping has clearly changed the structures of silicon clusters. The ground state geometries favor Rh-linked framework beginning from n = 6, and they favor Rh-encapsulated Si cages when n approach 10. RhSi₁₃ cluster is more stable than its neighbors. The charges transfer within the clusters always transfer from silicon atom to rhodium atom, and there is spd hybridization in RhSi_n cluster. The analyzed chemical potential and chemical hardness pointed out the RhSi₁₃ cluster has the stronger hardness than other clusters. At last, the infrared and Raman spectrum properties for RhSi₁₃ cluster are analyzed.

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含铑杂质的 Sin（n = 6-15）团簇的几何和电子特性：第一原理研究

为了深入研究RhSin（n = 6-15）团簇的微观性质，本研究采用了CALYPSO结构预测程序和密度泛函理论。论文对团簇进行了全面的理论分析，考察了结构、相对稳定性、电荷转移、垂直电子亲和力、垂直电离势、化学势、化学硬度以及红外光谱和拉曼光谱等参数。优化过程显示，铑的掺杂明显改变了硅团簇的结构。从 n = 6 开始，基态几何结构倾向于 Rh 链接框架，当 n 接近 10 时，它们倾向于 Rh 封装硅笼。RhSi13 簇比其邻近簇更稳定。簇内的电荷转移总是从硅原子转移到铑原子，RhSin 簇中存在 spd 杂化。对化学势和化学硬度的分析表明，RhSi13 团簇比其他团簇具有更强的硬度。最后，分析了 RhSi13 团簇的红外光谱和拉曼光谱特性。

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来源期刊

Structural Chemistry 化学-化学综合

CiteScore

3.80

自引率

11.80%

发文量

227

审稿时长

3.7 months

期刊介绍： Structural Chemistry is an international forum for the publication of peer-reviewed original research papers that cover the condensed and gaseous states of matter and involve numerous techniques for the determination of structure and energetics, their results, and the conclusions derived from these studies. The journal overcomes the unnatural separation in the current literature among the areas of structure determination, energetics, and applications, as well as builds a bridge to other chemical disciplines. Ist comprehensive coverage encompasses broad discussion of results, observation of relationships among various properties, and the description and application of structure and energy information in all domains of chemistry. We welcome the broadest range of accounts of research in structural chemistry involving the discussion of methodologies and structures,experimental, theoretical, and computational, and their combinations. We encourage discussions of structural information collected for their chemicaland biological significance.

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