探索基于嘧啶的偶氮染料：振动光谱归属、TD-DFT 研究、化学反应性、HOMO-LUMO、ELF、LOL 和 NCI-RDG 分析。

Exploring Pyrimidine-Based azo Dyes: Vibrational spectroscopic Assignments, TD-DFT Investigation, chemical Reactivity, HOMO-LUMO, ELF, LOL and NCI-RDG analysis.

作者信息

Roufieda Guerroudj Ahlam, Ullah Mughal Ehsan, Naeem Nafeesa, Sadiq Amina, Al-Fahemi Jabir H, Asghar Basim H, Boukabcha Nourdine, Chouaih Abdelkader, Ahmed Saleh A

机构信息

Laboratory of Technology and Solid Properties (LTPS), Abdelhamid Ibn Badis University of Mostaganem, 27000 Mostaganem, Algeria; Process Engineering Department, Faculty of Technology, Dr. Moulay Tahar University of Saïda, 20000 Saida, Algeria.

Department of Chemistry, University of Gujrat, Gujrat-50700, Pakistan.

出版信息

Spectrochim Acta A Mol Biomol Spectrosc. 2024 May 15;313:124093. doi: 10.1016/j.saa.2024.124093. Epub 2024 Feb 28.

DOI:10.1016/j.saa.2024.124093

PMID:38428162

Abstract

Theoretical computations of pyrimidine-based azo dyes were performed by the DFT approach using the B3LYP/6 - 31G(d,p) basis set. The molecules were optimized based on the same basis set by calculating the minimum energy. FMOs, DOS and GCRD were computed for kinetic stability and chemical reactivity of the selected compounds. The MEP surface was studied to locate nucleophilic and electrophilic attack zones. The energy gap was carefully studied for pyrimidine-based azo dyes. Vibrational spectroscopy was studied in the most prominent regions with respect to PED assignments. Similarly, the UV-Vis absorption technique was calculated using the TD-DFT approach in different solvent media. The electronic structure of each atom in a molecule was examined via the electron localization function (ELF) and localized orbital locator (LOL). Non-covalent interactions were explored using reduced density gradient analysis. The combination of experimental and theoretical data allowed us to correlate the structural modifications with the observed photophysical properties, facilitating the design of azo dyes with tailored characteristics. This work contributes to the fundamental understanding of azo dyes and offers a foundation for the development of new materials with enhanced photophysical and electronic properties.

摘要

使用B3LYP/6 - 31G(d,p)基组，通过密度泛函理论（DFT）方法对嘧啶基偶氮染料进行了理论计算。通过计算最低能量，基于相同基组对分子进行了优化。计算了前线分子轨道（FMOs）、态密度（DOS）和广义电荷再分布密度（GCRD），以研究所选化合物的动力学稳定性和化学反应活性。研究了分子静电势（MEP）表面，以确定亲核和亲电攻击区域。对嘧啶基偶氮染料的能隙进行了仔细研究。针对势能分布（PED）归属，在最显著区域研究了振动光谱。同样，使用含时密度泛函理论（TD-DFT）方法计算了不同溶剂介质中的紫外-可见吸收技术。通过电子定域函数（ELF）和定域轨道定位器（LOL）研究了分子中每个原子的电子结构。使用约化密度梯度分析探索了非共价相互作用。实验数据和理论数据的结合使我们能够将结构修饰与观察到的光物理性质相关联，有助于设计具有定制特性的偶氮染料。这项工作有助于从根本上理解偶氮染料，并为开发具有增强光物理和电子性质的新材料奠定基础。

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探索基于嘧啶的偶氮染料：振动光谱归属、TD-DFT 研究、化学反应性、HOMO-LUMO、ELF、LOL 和 NCI-RDG 分析。

Exploring Pyrimidine-Based azo Dyes: Vibrational spectroscopic Assignments, TD-DFT Investigation, chemical Reactivity, HOMO-LUMO, ELF, LOL and NCI-RDG analysis.

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