Redox kinetics of methylene green: Titanium trichloride as a novel photo redox agent

IF 2 4区 工程技术 Q3 CHEMISTRY, APPLIED Coloration Technology Pub Date : 2024-05-30 DOI:10.1111/cote.12753
Syed Muhammad Saqib Nadeem, Rehana Saeed
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Abstract

The kinetics of the redox reaction of methylene green (MG) and the novel photo‐redox agent titanium trichloride (TiCl3) in water were investigated by real‐time spectrophotometric analysis of the change in absorbance of the reaction mixture at 655 nm. The novelty of this redox reaction is that the TiCl3 is an inorganic compound in contrast to the previously studied organic redox couples. The redox reaction was analysed in depth and the effects of the concentration of the TiCl3, MG, pH, dielectric constant, ionic strength, metal ions, and temperature on the reaction kinetics were observed. The rate of reaction had a direct relationship with the pH, dielectric constant, and ionic strength of the reaction medium, while an increase in temperature decreased the rate of reaction. The activation energy (Ea) was calculated by the Arrhenius relation, and the other thermodynamic parameters, such as enthalpy change of activation (∆H*), free energy change of activation (∆G*), and entropy change of activation (∆S*) were also evaluated to support the findings of the kinetic measurements. The presence of any reaction intermediate other than the species in the reaction mechanism was ruled out by the spectroscopic analysis of the reaction mixture and Michaelis–Menten plot while the absence of any free radicals was confirmed by the negative polyacrylamide test. A reaction mechanism for the redox reaction of MG+ and TiCl3 was proposed based on the different excited states of the MG+ involved in the reaction and the results of the product analysis. The decolourisation of MG by the TiCl3 is overall a second‐order reaction and is significantly affected by the pH of the reaction medium. The overall rate law for the redox reaction of MG and TiCl3 is as follows.
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亚甲基绿的氧化还原动力学:作为新型光氧化还原剂的三氯化钛
通过对反应混合物在 655 纳米波长处的吸光度变化进行实时分光光度分析,研究了亚甲基绿(MG)和新型光氧化还原剂三氯化钛(TiCl3)在水中的氧化还原反应动力学。这种氧化还原反应的新颖之处在于 TiCl3 是一种无机化合物,与之前研究的有机氧化还原偶联物不同。对氧化还原反应进行了深入分析,观察了 TiCl3 浓度、MG、pH 值、介电常数、离子强度、金属离子和温度对反应动力学的影响。反应速率与反应介质的 pH 值、介电常数和离子强度有直接关系,而温度升高则会降低反应速率。活化能(Ea)由阿伦尼乌斯关系式计算得出,其他热力学参数,如活化焓变化(∆H*)、活化自由能变化(∆G*)和活化熵变化(∆S*)也得到了评估,以支持动力学测量的结果。反应混合物的光谱分析和迈克尔斯-门顿图排除了反应机理中物种以外的任何反应中间体的存在,而聚丙烯酰胺阴性试验则证实了不存在任何自由基。根据参与反应的 MG+ 的不同激发态和产物分析结果,提出了 MG+ 和 TiCl3 氧化还原反应的反应机理。TiCl3 对 MG 的脱色反应总体上属于二阶反应,受反应介质 pH 值的影响很大。MG 与 TiCl3 的氧化还原反应的总速率规律如下。
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来源期刊
Coloration Technology
Coloration Technology 工程技术-材料科学:纺织
CiteScore
3.60
自引率
11.10%
发文量
67
审稿时长
4 months
期刊介绍: The primary mission of Coloration Technology is to promote innovation and fundamental understanding in the science and technology of coloured materials by providing a medium for communication of peer-reviewed research papers of the highest quality. It is internationally recognised as a vehicle for the publication of theoretical and technological papers on the subjects allied to all aspects of coloration. Regular sections in the journal include reviews, original research and reports, feature articles, short communications and book reviews.
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