Current-Density Calculations on Zn-Porphyrin40 Nanorings

IF 2.7 2区 化学 Q3 CHEMISTRY, PHYSICAL The Journal of Physical Chemistry A Pub Date : 2023-09-04 DOI:10.1021/acs.jpca.3c03564
Atif Mahmood, Maria Dimitrova and Dage Sundholm*, 
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Abstract

Two porphyrinoid nanorings have been studied computationally. They were built by linking 40 Zn-porphyrin units with butadiyne bridges. The molecular structures belonging to the D40h point group were fully optimized with the Turbomole program at the density functional theory (DFT) level using the B3LYP functional and the def2-SVP basis sets. The aromatic character was studied at the DFT level by calculating the magnetically induced current-density (MICD) susceptibility using the GIMIC program. The neutral molecules are globally non-aromatic with aromatic Zn-porphyrin units. Charged nanorings could not be studied because almost degenerate frontier orbitals led to vanishing optical gaps for the cations. Since DFT calculations of the MICD are computationally expensive, we also calculated the MICD using three pseudo-π models. Appropriate pseudo-π models were constructed by removing the outer hydrogen atoms and replacing all carbon and nitrogen atoms with hydrogen atoms. The central Zn atom was either replaced with a beryllium atom or with two inner hydrogen atoms. Calculations with the computationally inexpensive pseudo-π models yielded qualitatively the same magnetic response as obtained in the all-electron calculations.

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zn -卟啉40纳米片的电流密度计算
对两种类卟啉纳米颗粒进行了计算研究。它们是由40个zn -卟啉单元与丁二炔桥连接而成的。利用Turbomole程序在密度泛函理论(DFT)水平上,利用B3LYP泛函和def2-SVP基集对D40h点群的分子结构进行了充分优化。利用GIMIC程序计算磁致感应电流密度(MICD)磁化率,在DFT水平上研究了其芳香特性。中性分子总体上是非芳香的,带有芳香的zn -卟啉单元。由于几乎简并的前沿轨道导致阳离子的光学间隙消失,因此无法研究带电纳米结构。由于MICD的DFT计算在计算上很昂贵,我们也使用三个伪π模型计算了MICD。通过去除外层的氢原子,用氢原子替换所有的碳原子和氮原子,构建了合适的伪π模型。中心的锌原子要么被一个铍原子取代,要么被两个内部氢原子取代。用计算成本低廉的伪π模型计算得到了与全电子计算相同的定性磁响应。
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来源期刊
The Journal of Physical Chemistry A
The Journal of Physical Chemistry A 化学-物理:原子、分子和化学物理
CiteScore
5.20
自引率
10.30%
发文量
922
审稿时长
1.3 months
期刊介绍: The Journal of Physical Chemistry A is devoted to reporting new and original experimental and theoretical basic research of interest to physical chemists, biophysical chemists, and chemical physicists.
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