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用于评估具有各向异性性质材料的色散校正密度泛函理论方法的基准测试:方解石(CaCO₃,空间群R3̅c)的结构、电子、介电、光学和振动分析

Benchmarking dispersion-corrected DFT methods for the evaluation of materials with anisotropic properties: structural, electronic, dielectric, optical and vibrational analysis of calcite (CaCO, space group R3[combining macron]c).

作者信息

Ulian Gianfranco, Moro Daniele, Valdrè Giovanni

机构信息

Centro di Ricerca Interdisciplinare di Biomineralogia, Cristallografia e Biomateriali, Dipartimento di Scienze Biologiche, Geologiche e Ambientali, Università di Bologna "Alma Mater Studiorum", Piazza di Porta San Donato 1, 40126 Bologna, Italy.

出版信息

Phys Chem Chem Phys. 2021 Sep 14;23(34):18899-18907. doi: 10.1039/d1cp02673a. Epub 2021 Aug 23.

DOI:10.1039/d1cp02673a
PMID:34612428
Abstract

Calcite (CaCO, space group R3[combining macron]c) is a solid phase whose well-known highly anisotropic physical properties can be exploited to compare and calibrate various theoretical simulation methods. In this work, to benchmark different ab initio Density Functional Theory approaches that include for the first time corrections for dispersive forces, a systematic analysis of structural, electronic, dielectric, optical and vibrational properties of calcite is performed. The simulations considered the generalized-gradient approximation functional PBE and the hybrid B3LYP and PBE0, whereas the DFT-D2 and DFT-D3 schemes were adopted to account for the long-range interactions. This study suggests an overall better agreement between the theoretical results obtained with the DFT functionals corrected for the dispersive forces, with a better performance of hybrid functionals over PBE.

摘要

方解石(CaCO₃,空间群R3̅c)是一种固相,其众所周知的高度各向异性物理性质可用于比较和校准各种理论模拟方法。在这项工作中,为了对首次包含色散力校正的不同从头算密度泛函理论方法进行基准测试,对方解石的结构、电子、介电、光学和振动性质进行了系统分析。模拟考虑了广义梯度近似泛函PBE以及混合泛函B3LYP和PBE0,同时采用DFT-D2和DFT-D3方案来考虑长程相互作用。这项研究表明,在对色散力进行校正的DFT泛函所获得的理论结果之间总体上具有更好的一致性,混合泛函的性能优于PBE。

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