Phthalocyanine And Porphyrin Derivatives Of А3B-Type: Quantum-Chemical Modeling of Dimers

IF 0.3 Q4 CRYSTALLOGRAPHY
A. Smirnova, N. Giricheva, K. Soldatova, A. V. Ezhov, E. Glukhovskoy, N. Usol'tseva
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Abstract

A binary system consisting of a mixture of phthalocyanine (Pc) and porphyrin (P) derivatives of the A 3 B-type was studied by the quantum-chemical method (DFT/B97D/6-311G**). Competition of interactions between components of the mixture is considered. For this purpose, a computer simulation of P and Pc monomer structures, as well as dimers Pc ∙∙∙ Pc, P ∙∙∙ Pc, and P ∙∙∙ P was carried out. Several variations of the geometric structure of dimers of each type (Pc ∙∙∙ Pc, P ∙∙∙ Pc and P ∙∙∙Р ) differing in the mutual orientation of monomers were examined. The values of relative energies and dipole moments of the dimers were calculated. It is shown that during associa-tion of P molecules, their orientation in the supramolecular column P ∙∙∙ P ∙∙∙ P… can be different due to the absence of the preferred direction of resulting dipole moment. In contrast to P, in the Pc ∙∙∙ Pc ∙∙∙ Pc… columns, a predomi-nantly unidirectional arrangement of Pc monomers with the same orientation of dipole moments is formed. Such individual columns can self-arrange into supramolecular mesophase structures with a certain packing of the columns. For the dimers Рс∙∙∙Рс , Р∙∙∙Рс and Р∙∙∙Р the energies of intermolecular interaction were calculated. It was found that Pc molecules form the most stable dimers with the smallest distance between heterocycles and the highest interaction energy between monomers. Therefore, in the equimolecular system of Р and Рс , the Рс∙∙∙Рс∙∙∙Рс … column formation will be more preferable. Experimental miscibility investigation of the studied phthalocyanine and porphyrin derivatives confirmed these theoretical conclusions and showed that after heating and subsequent cooling, the mixture of P and Pc (mo-lar ratio of components 1: 1) separates, i.e. in a condensed bulk state the components do not mix. Therefore, it is not possible to obtain homogeneous thin films by spin-coating method. Nevertheless, the creation of thin film materials based on the studied P and Pc in the form of cascade structures with an extended absorption region of the visible part of the spectrum is possible by the Langmuir-Schaefer method. The frontier orbitals calculation showed that in order to create an optimal cascade-type photovoltaic cell, the studied compounds should be depos-ited onto a substrate according to the lowering of LUMO energy in the following sequence: P / Pc / C 60 .
酞菁和卟啉衍生物А3B-Type:二聚体的量子化学建模
用量子化学方法(DFT/B97D/6-311G**)研究了由酞菁(Pc)和卟啉(P)的A3 B型衍生物的混合物组成的二元体系。考虑了混合物成分之间相互作用的竞争。为此,对P和Pc单体结构,以及二聚体Pc∙∙∙Pc、P∙∙·普c和P∙・∙P进行了计算机模拟。研究了单体相互取向不同的每种类型的二聚体(Pc、P和P)几何结构的几种变化。计算了二聚体的相对能量和偶极矩。结果表明,在P分子缔合过程中,由于没有产生偶极矩的优选方向,它们在超分子柱P∙。与P形成对比的是,在Pc∙∙Pc∙。这样的单个柱可以在一定的柱填充下自排列成超分子中间相结构。计算了二聚体Рс∙∙Ра、Р∙а∙К和Р∙。发现Pc分子形成最稳定的二聚体,杂环之间的距离最小,单体之间的相互作用能最高。因此,在Р和Рс的等分子体系中,形成Ра∙∙К∙Р∙а…柱将更为可取。对所研究的酞菁和卟啉衍生物的实验混溶性研究证实了这些理论结论,并表明在加热和随后的冷却后,P和Pc的混合物(组分的摩尔比为1:1)分离,即在冷凝的本体状态下,组分不混合。因此,不可能通过旋涂法获得均匀的薄膜。然而,基于所研究的P和Pc,通过Langmuir Schaefer方法可以以级联结构的形式产生具有光谱可见光部分的扩展吸收区的薄膜材料。前沿轨道计算表明,为了产生最佳的级联型光伏电池,所研究的化合物应根据LUMO能量的降低按以下顺序沉积在衬底上:P/Pc/C60。
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来源期刊
CiteScore
1.30
自引率
40.00%
发文量
30
期刊介绍: The Journal presents the following main directions of creation/construction, study and application of self-assembled materials: SYNTHESIS, STRUCTURE, PROPERTIES, MEDICINE, BIOLOGY, NANOTECHNOLOGY, SENSORS, PRACTICAL APPLICATION and INFORMATION. The journal is addressed to researchers, lecturers, university students, engineers. The publisher of the journal is the Nanomaterials Research Institute of "Ivanovo State University".
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