碱性染料的深度氧化解离:DFT计算的理论研究

Chemical science transactions Pub Date : 2019-07-08 DOI:10.7598/cst2019.1601

A. M. Elhorri, Mourad Zouaoui Rabah

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引用次数: 0

摘要

本文对碱红2 (BR2)、碱红5 (BR5)、碱红(BR10)、碱紫5 (BV5)和碱紫12 (BV12)这5种碱性分子进行了深度氧化降解碱性染料的理论研究。这项工作的目的是确定对激进攻击反应最强烈的攻击部位。换句话说，有利于使用高级氧化过程降解的位点的位置。这一过程在水体净化领域中是必不可少的。这项工作是用从头算的方法在理论上完成的。采用CAM-B3LYP泛函和6 - 31++G(d, p)基集进行计算。利用这些结果得到了以下参数:自由基攻击反应性的局部指标、反应性和过渡态的全局指标。由这些参数得到的结果表明，对自由基攻击反应最活跃的位点与实验确定的位点基本一致。因此，大多数位点位于构成五种染料的非那嗪发色团的水平。

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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Dissociation of Basic Dyes by Advanced Oxidation: Theoretical Study by DFT Calculations

: This work is based on a theoretical study concerning the degradation of basic dyes by advanced oxidation on five basic molecules called as follows: basic red 2 (BR2), basic red 5 (BR5), basic red (BR10), basic violet 5 (BV5) and basic violet 12 (BV12). The purpose of this work is to determine the attack sites most reactive to radical attacks. In other words, the location of the sites which favors the degradation by using the advanced oxidation process. This process is essential in the field of the water depollution. The work was done theoretically by ab initio methods. The calculations were carried out by CAM-B3LYP functional and 6–31++G(d, p) basis set. The exploitation of the results gives the following parameters: local indices of reactivities to radical attacks, global indices of reactivities and transition states. The results obtained from these parameters show the most reactive sites to radical attacks that are in good agreement with the sites determined experimentally. Hence, the majority of the sites were located at the level of the phenazine chromophore constituting the five dyes.

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Chemical science transactions

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