Charge-Transfer Patterns for [Ru(NH3)6]3+/2+ at SAM Modified Gold Electrodes: Impact of the Permeability of a Redox Probe

The Open Physical Chemistry Journal Pub Date : 2008-10-24 DOI:10.2174/1874067700802010017

T. Dolidze, S. Rondinini, A. Vertova, M. Longhi, D. Khoshtariya

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引用次数: 6

Abstract

Electrochemical performance of a (Ru(NH3)6) 3+/2+ redox couple at gold electrodes modified by alkanethiol self assembled monolayer (SAM) films of the type (-SH -(CH2)n - CH3) with different number of methylene units (n = 2 to 10) in the presence and absence of glucose additives has been studied using fast scan cyclic and steady-state voltammetry. Specific scatter of measured rate constants caused by enhanced sensitivity of this probe to minor defects of SAMs has been observed in a general agreement with the published data for thicker SAMs (n = 9 to 18). In addition, we have disclo- sed the anomalous viscosity-imposed drop of the heterogeneous rate constant for the case of Au electrodes modified by thinner n-alkanethiol SAMs (n = 2, 4). Taking into the account the fact of (Ru(NH3)6) 3+/2+ couple's capability to penetrate into the SAM interior, we ascribe the obtained results to the manifestation of the solvent-friction mechanism under the condition where the redox species presumably together with a few of solvating water molecules reside in a SAM's peri- pheral interior marked by much higher local viscosity (slower dielectric relaxation) compared to the electrolyte solution.

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[Ru(NH3)6]3+/2+在SAM修饰金电极上的电荷转移模式:氧化还原探针渗透率的影响

采用快速扫描循环和稳态伏安法研究了不同亚甲基数(n = 2 ~ 10)的(- sh -(CH2)n - CH3)型(烷硫醇自组装单层(SAM)膜修饰的(Ru(NH3)6) 3+/2+氧化还原偶对在有和无葡萄糖添加剂情况下的电化学性能。由于该探针对SAMs微小缺陷的敏感性增强，所测量的速率常数的特定散射与已发表的较厚SAMs的数据(n = 9至18)大致一致。此外，我们还发现了由较薄的正烷硫醇SAMs (n = 2,4)修饰的Au电极的非均相速率常数在粘度作用下的异常下降。考虑到(Ru(NH3)6) 3+/2+对渗透到SAM内部的能力，我们将得到的结果归因于溶剂摩擦机制的表现，在这种情况下，氧化还原物质可能与一些溶剂化水分子一起存在于SAM的外围内部，与电解质溶液相比，SAM的局部粘度要高得多(介质弛豫速度较慢)。

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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The Open Physical Chemistry Journal

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