含吲哚和嘧啶基团的固态发光材料：设计、合成及密度泛函理论计算

Solid-State Luminescent Materials Containing Both Indole and Pyrimidine Moieties: Design, Synthesis, and Density Functional Theory Calculations.

作者信息

Younis Osama, Sayed Mostafa, Mohammed Ahmed A K, Tolba Mahmoud S, Hassanien Reda, Kamal El-Dean Adel M, Tsutsumi Osamu, Ahmed Mostafa

机构信息

Chemistry Department, Faculty of Science, New Valley University, El-Kharga 72511, Egypt.

Department of Applied Chemistry, College of Life Sciences, Ritsumeikan University, Kusatsu 525-8577, Japan.

出版信息

ACS Omega. 2022 Apr 20;7(17):15016-15026. doi: 10.1021/acsomega.2c00775. eCollection 2022 May 3.

DOI:10.1021/acsomega.2c00775

PMID:35557695

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9089344/

Abstract

Heterocyclic compounds with effective solid-state luminescence offer a wide range of uses. It has been observed that combining pyrimidine and indole moieties in a single molecule can enhance material behavior dramatically. Here, different heterocyclic compounds with indole and pyrimidine moieties have been synthesized effectively, and their structures have been validated using NMR, IR, and mass spectroscopy. The photoluminescence behavior of two substances was investigated in powder form and solutions of varying concentrations. After aggregation, one molecule displayed a redshifted luminescence spectrum, whereas another homolog showed a blueshift. Thus, density functional theory calculations were carried out to establish that introducing a terminal group allows modifying of the luminescence behavior by altering the molecular packing. Because of the non-planarity, intermolecular interactions, and tiny intermolecular distances within the dimers, the materials demonstrated a good emission quantum yield (Φ) in the solid state (ex. 25.6%). At high temperatures, the compounds also demonstrated a stable emission characteristic.

摘要

具有有效固态发光的杂环化合物有广泛的用途。据观察，在单个分子中结合嘧啶和吲哚部分可以显著增强材料性能。在此，已有效合成了具有吲哚和嘧啶部分的不同杂环化合物，并使用核磁共振、红外光谱和质谱对其结构进行了验证。以粉末形式和不同浓度的溶液研究了两种物质的光致发光行为。聚集后，一种分子显示出红移的发光光谱，而另一种同系物显示出蓝移。因此，进行了密度泛函理论计算，以确定引入端基可通过改变分子堆积来改变发光行为。由于二聚体内的非平面性、分子间相互作用和微小的分子间距离，这些材料在固态下表现出良好的发射量子产率（例如25.6%）。在高温下，这些化合物也表现出稳定的发射特性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5432/9089344/df7b63758df9/ao2c00775_0007.jpg

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含吲哚和嘧啶基团的固态发光材料：设计、合成及密度泛函理论计算

Solid-State Luminescent Materials Containing Both Indole and Pyrimidine Moieties: Design, Synthesis, and Density Functional Theory Calculations.

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