Unusual Zig-Zag Effect in the Electrochemical Oxidation of Phenyl End-Capped α-Oligothiophenes

Organic Materials Pub Date : 2021-04-01 DOI:10.1055/s-0041-1726089

K. Bold, M. Stolte, F. Würthner

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Abstract

Abstract A series of phenyl end-capped α-oligothiophenes containing four to seven thiophene subunits (4T–7T) was synthesized utilizing palladium-catalyzed cross-coupling reactions. UV/Vis spectroscopic analysis revealed one broad absorption band that shifts bathochromically with increasing number of thiophene units. Structured emission spectra are observed with Stokes shift ν~4000 cm−1 and quantum yields of up to 53%. End-capping of the oligothiophene molecules by phenyl units does not only extend the effective conjugation but also prevents from α–α-homocoupling upon electrochemical oxidation. Accordingly, reversible redox waves are observed in cyclic voltammetry with up to four reversible one-electron processes for the two longer congeners. Analyses of the first two oxidation processes in the framework of multiredox systems provide insight into the stabilization or destabilization of polaronic and bipolaronic states. An unusual zig-zag trend for the first (and to a lesser extend second) oxidation process could be explained by the sterical encumbrance of solubilizing hexyl chains in 5T and 7T molecules which counteract the formation of a fully planar quinoidal oligothiophene backbone.

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苯基封端α-低聚噻吩电化学氧化过程中的反常Zig-Zag效应

摘要利用钯催化的交叉偶联反应合成了一系列含有4 ~ 7个噻吩亚基(4T-7T)的苯基端封α-寡硫吩。紫外/可见光谱分析显示，随着噻吩单位数量的增加，有一个较宽的吸收带发生色移。在Stokes位移ν~4000 cm−1范围内观察到结构发射光谱，量子产率高达53%。在低硫噻吩分子的末端加上苯基单元不仅延长了有效偶联，而且防止了在电化学氧化过程中α- α-均偶联。因此，可逆氧化还原波在循环伏安法中被观察到，对于两个较长的同系物，有多达四个可逆的单电子过程。在多氧化还原系统的框架中，对前两种氧化过程的分析提供了对极化态和双极化态稳定或不稳定的见解。第一次氧化过程中不寻常的锯齿状趋势(在较小程度上是第二次)可以解释为5T和7T分子中溶解己基链的空间阻碍，抵消了全平面quinoidal寡硫吩主链的形成。

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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