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简单而准确的实验氧化还原电位与多环芳烃的 DFT 计算 HOMO/LUMO 能量的相关性。

Simple and accurate correlation of experimental redox potentials and DFT-calculated HOMO/LUMO energies of polycyclic aromatic hydrocarbons.

机构信息

Department of Chemistry and Biochemistry, Arizona State University, Tempe, AZ 85287-1604, USA.

出版信息

J Mol Model. 2013 Jul;19(7):2845-8. doi: 10.1007/s00894-012-1694-7. Epub 2012 Dec 9.

DOI:10.1007/s00894-012-1694-7
PMID:23224940
Abstract

The ability to accurately predict the oxidation and reduction potentials of molecules is very useful in various fields and applications. Quantum mechanical calculations can be used to access this information, yet sometimes the usefulness of these calculations can be limited because of the computational requirements for large systems. Methodologies that yield strong linear correlations between calculations and experimental data have been reported, however the balance between accuracy and computational cost is always a major issue. In this work, linear correlations (with an R(2) value of up to 0.9990) between DFT-calculated HOMO/LUMO energies and 70 redox potentials from a series of 51 polycyclic aromatic hydrocarbons (obtained from the literature) are presented. The results are compared to previously reported linear correlations that were obtained with a more expensive computational methodology based on a Born-Haber thermodynamic cycle. It is shown in this article that similar or better correlations can be obtained with a simple and cheaper calculation.

摘要

准确预测分子的氧化还原电位在各个领域和应用中非常有用。量子力学计算可用于获取此信息,但由于对大型系统的计算要求,这些计算的有用性有时可能会受到限制。已经报道了能够在计算和实验数据之间产生强线性相关的方法,但是准确性和计算成本之间的平衡始终是一个主要问题。在这项工作中,提出了 DFT 计算的 HOMO/LUMO 能量与 51 个多环芳烃系列中的 70 个氧化还原电位之间的线性相关关系(文献中获得)(R(2) 值高达 0.9990)。将结果与先前报道的线性相关关系进行了比较,该线性相关关系是使用基于 Born-Haber 热力学循环的更昂贵的计算方法获得的。本文表明,使用简单且更便宜的计算可以获得相似或更好的相关性。

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