化学
离域电子
光激发
咔唑
接受者
激发态
光化学
密度泛函理论
电子受体
电子供体
共振(粒子物理)
振动耦合
共轭体系
化学物理
计算化学
原子物理学
分子
物理
有机化学
聚合物
凝聚态物理
催化作用
作者
Anna Zieleniewska,Xiaotao Zhao,Stefan Bauroth,Changsheng Wang,Andrei S. Batsanov,Christina Krick Calderon,Axel Kahnt,Timothy Clark,Martin R. Bryce,Dirk M. Guldi
摘要
There are notably few literature reports of electron donor-acceptor oligoynes, even though they offer unique opportunities for studying charge transport through "all-carbon" molecular bridges. In this context, the current study focuses on a series of carbazole-(C≡C)n-2,5-diphenyl-1,3,4-oxadiazoles (n = 1-4) as conjugated π-systems in general and explores their photophysical properties in particular. Contrary to the behavior of typical electron donor-acceptor systems, for these oligoynes, the rates of charge recombination after photoexcitation increase with increasing electron donor-acceptor distance. To elucidate this unusual performance, we conducted detailed photophysical and time-dependent density functional theory investigations. Significant delocalization of the molecular orbitals along the bridge indicates that the bridging states come into resonance with either the electron donor or acceptor, thereby accelerating the charge transfer. Moreover, the calculated bond lengths reveal a reduction in bond-length alternation upon photoexcitation, indicating significant cumulenic character of the bridge in the excited state. In short, strong vibronic coupling between the electron-donating N-arylcarbazoles and the electron-accepting 1,3,4-oxadiazoles accelerates the charge recombination as the oligoyne becomes longer.
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