在四丙基溴化铵（Pr4NBr）和氯化钠（NaCl）存在下，盐对[Ru（CN）5OH2]3−阴离子与两个萘取代配体（亚硝基-R‐盐和α-亚硝基-β-萘酚）的配体取代反应活性的影响

IF 1.5 4区化学 Q4 CHEMISTRY, PHYSICAL

International Journal of Chemical Kinetics Pub Date : 2023-08-02 DOI:10.1002/kin.21686

Rupal Yadav, Abhishek Srivastava, Ruchi Singh, Radhey Mohan Naik, Shiv Bali Singh Yadav, Pradeep Kumar Pandey

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引用次数: 0

摘要

研究了在氯化钠(NaCl)或四丙基溴化铵(Pr4NBr)盐水溶液中，萘取代配体[α -亚硝基- β -萘酚(α n - β n)]与萘取代配体[亚硝基- R -盐(NRS)]之间的配体交换反应动力学。在525 nm处用分光光度法测定了红棕色取代产物[Ru(CN)5(α n - β n)]3−或[Ru(CN)5(NRS)]3−的λmax。增加反应混合物的离子强度，对萘取代产物的生成速率产生负盐效应。同时，Pr4NBr浓度的增加使反应呈现正盐效应。观察到的速率常数(kobs)随NRS或α n - β n的浓度呈线性增加，而随[Ru(CN)5OH2]3−的变化保持不变。计算得到的NRS活化参数(∆H# = 24.55 kJ mol - 1, Ea = 27.03 kJ mol - 1，∆G# = 87.83 kJ mol - 1，∆S# = - 212.5 kJ mol - 1)和α n - β n(∆H# = 17.33 kJ mol - 1, Ea = 19.81 kJ mol - 1，∆G# = 87.87 kJ mol - 1，∆S# = - 236.7 J K - 1 mol - 1)也支持上述机制。

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Salt effects on the reactivity for ligand substitution reactions of [Ru(CN)5OH2]3− anion with two naphthalene substituted ligands (nitroso-R-salt and α-nitroso-β-naphthol) in presence of Tetrapropylammonium bromide (Pr4NBr) and Sodium chloride (NaCl)

The kinetics of the ligand exchange reaction between aquapentacyanoruthenate(II) [Ru(CN)₅OH₂]³⁻ ion and naphthalene substituted ligands [α-nitroso-β-naphthol (αNβN), and nitroso-R-salt (NRS)] has been studied in aqueous salt solutions of sodium chloride (NaCl) or tetrapropylammonium bromide (Pr₄NBr) salt. The kinetics was monitored spectrophotometrically at 525 nm corresponding to the λ_max of reddish-brown-colored substituted products, [Ru(CN)₅(αNβN)]³⁻ or [Ru(CN)₅(NRS)]³⁻. Increasing the ionic strength of the reaction mixture using NaCl, exerted a negative salt effect on the rate of formation of naphthalene-substituted products. At the same time, an increment in the concentration of Pr₄NBr imparted a positive salt effect on the reaction. The observed rate constant (k_obs) exhibits linear increment with respect to the concentration of NRS or αNβN while remaining invariant with variation in [Ru(CN)₅OH₂]³⁻. The computed activation parameters for NRS (∆H^# = 24.55 kJ mol⁻¹, E_a = 27.03 kJ mol⁻¹, ∆G^# = 87.83 kJ mol⁻¹, and ∆S^# = – 212.5 J K⁻¹ mol⁻¹) and αNβN ((∆H^# = 17.33 kJ mol⁻¹, E_a = 19.81 kJ mol⁻¹, ∆G^# = 87.87 kJ mol⁻¹, and ∆S^# = – 236.7 J K⁻¹ mol⁻¹) also support the proposed mechanism.

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来源期刊

International Journal of Chemical Kinetics 化学-物理化学

CiteScore

3.30

自引率

6.70%

发文量

审稿时长

3 months

期刊介绍： As the leading archival journal devoted exclusively to chemical kinetics, the International Journal of Chemical Kinetics publishes original research in gas phase, condensed phase, and polymer reaction kinetics, as well as biochemical and surface kinetics. The Journal seeks to be the primary archive for careful experimental measurements of reaction kinetics, in both simple and complex systems. The Journal also presents new developments in applied theoretical kinetics and publishes large kinetic models, and the algorithms and estimates used in these models. These include methods for handling the large reaction networks important in biochemistry, catalysis, and free radical chemistry. In addition, the Journal explores such topics as the quantitative relationships between molecular structure and chemical reactivity, organic/inorganic chemistry and reaction mechanisms, and the reactive chemistry at interfaces.