中性簇:两步 G0W0 和 DFT 基准

IF 2.6 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
S. Bakhsh, Sameen Aslam, Muhammad Khalid, M. Sohail, Sundas Zafar, Sumayya Abdul Wadood, K. Morsy, Muhammad Aamir Iqbal
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引用次数: 0

摘要

采用 GW 和广义梯度近似密度泛函理论(DFT)的两步方案,研究了大小范围为 2-20 个原子的钙簇的电子和结构特性。GGA 高估了基准中报告的结合能、优化几何结构、电子亲和力和电离势。基态结构几何图形和结合能是根据每个簇的基态结构从 DFT 中获得的。除少数稳定的偶数和奇数簇外,钙系列中性簇的结合能呈上升趋势。用全电子 FHI-aims 代码研究了钙簇的电子特性。在 G0W0 计算中,魔簇 Ca10 具有相对较高的电离势和较低的电子亲和力。从 G0W0@PBE 计算得到的电离电位可以看出,大簇的电离电位变化较小,而该系列的电子亲和力呈上升趋势。根据 G0W0 基准计算得出的钙簇系列电离电位在文献中还没有出现过。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Can neutral clusters: a two-step G0W0 and DFT benchmark
Electronic and structural properties of calcium clusters with a varying size range of 2–20 atoms are studied using a two-step scheme within the GW and density functional theory (DFT) with generalized gradient approximation (GGA). The GGA overestimates the binding energies, optimized geometries, electron affinities, and ionization potentials reported in the benchmark. The ground-state structure geometry and binding energy were obtained from the DFT for the ground-state structure of each cluster. The binding energy of the neutral clusters of the calcium series follows an increasing trend, except for a few stable even and odd clusters. The electronic properties of the calcium cluster were studied with an all-electron FHI-aims code. In the G0W0 calculation, the magic cluster Ca10 has relatively high ionization potential and low electron affinity. The obtained ionization potentials from the G0W0@PBE calculation showed that the larger cluster has less variation, whereas the electron affinities of the series have an increasing trend. The ionization potentials from the G0W0 benchmark for the calcium cluster series have not yet been described in the literature.
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来源期刊
Beilstein Journal of Nanotechnology
Beilstein Journal of Nanotechnology NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
5.70
自引率
3.20%
发文量
109
审稿时长
2 months
期刊介绍: The Beilstein Journal of Nanotechnology is an international, peer-reviewed, Open Access journal. It provides a unique platform for rapid publication without any charges (free for author and reader) – Platinum Open Access. The content is freely accessible 365 days a year to any user worldwide. Articles are available online immediately upon publication and are publicly archived in all major repositories. In addition, it provides a platform for publishing thematic issues (theme-based collections of articles) on topical issues in nanoscience and nanotechnology. The journal is published and completely funded by the Beilstein-Institut, a non-profit foundation located in Frankfurt am Main, Germany. The editor-in-chief is Professor Thomas Schimmel – Karlsruhe Institute of Technology. He is supported by more than 20 associate editors who are responsible for a particular subject area within the scope of the journal.
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