A Benchmark Study on the Properties of Unsubstituted and Some Substituted Polypyrroles

C. Ibeji, I. Adejoro, B. B. Adeleke
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引用次数: 18

Abstract

The geometric, thermodynamic, electronic and absorption properties of Pyrrole and some of its derivatives have been carried out using CCSD/6-311++G(d,p)/STO-3G, TD-DFT and DFT/B3LYP/6-31G(d) from monomer to five repeating units. Substitution by a methyl group at C3 and functional groups at C4 cause small changes in atomic distances. The estimated inter-ring bond length based on Badger's rule of 1.41 A indicates that the average structure is about 30% quinoid. The geometries indicates that strong conjugate effects and effective aromatic structure are formed in the order Pyrrole>MPCam>MPC. The oligomers of simulated compounds have been extrapolated to polymer through second-degree polynomial-fit equation with r2 value ranging from 0.96-0.99. Calculated band gap of pyrrole, which is 2.9 eV, significantly correlates with the experimental value which ranges from 2.9-3.2 eV and this corresponds to π-π* transition energies. Natural bond orbitals of polypyrrole reveals that the wavefunctions contain dynamic correlations (single reference), closed shell character while substituted polypyrrole are multireference (static correlation), open shell character.
未取代及部分取代聚吡咯性质的基准研究
利用CCSD/6-311++G(d,p)/STO-3G、TD-DFT和DFT/B3LYP/6-31G(d)从单体到5个重复单元,研究了吡咯及其衍生物的几何、热力学、电子和吸收性质。C3上的甲基和C4上的官能团的取代引起原子距离的微小变化。根据1.41 A的Badger规则估计的环间键长表明,平均结构约为30%的类醌。几何分析表明,在吡咯>MPCam>MPC序中形成了较强的共轭效应和有效的芳香结构。通过二阶多项式拟合方程将模拟化合物的低聚物外推为聚合物,其r2值在0.96 ~ 0.99之间。计算得到的吡咯带隙为2.9 eV,与2.9 ~ 3.2 eV的实验值显著相关,对应π-π*跃迁能。聚吡咯的天然键轨道表明其波函数具有动态相关(单参考)、闭壳性质,而取代的聚吡咯则具有多参考(静态相关)、开壳性质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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