二茂铁-(卟啉锌)-萘二酰亚胺三元组的远距离电荷分离。1,2,3-三唑类连接物的不对称作用

IF 2.781
M. Natali, M. Ravaglia, F. Scandola, J. Boixel, Y. Pellegrin, E. Blart, F. Odobel
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引用次数: 30

摘要

以卟啉锌(ZnP)、萘二酰亚胺(NDI)和二茂铁(Fc)为分子组分,通过1,2,3-三唑桥连接,合成了ZnP-NDI(3)和Fc-ZnP-NDI(4)的二联体和三联体体系。通过ZnP发色团的可见光激发和NDI单元的紫外激发,研究了它们的光物理行为。Dyad 3表现出相对低效的ZnP单线态猝灭、缓慢的电荷分离和快速的电荷复合过程。另一方面,NDI发色团的激发通过单线态和三重态猝灭途径导致电荷分离,单线态电荷分离(CS)态在亚纳秒时间尺度内重组,三重态CS态在约90 ns内衰减。在三元体系4中,Fc-ZnP+- ndi -电荷分离态的初级形成伴随着从ZnP到Fc的二次空穴移位过程。分步电荷分离的产物Fc+- znp - ndi -在1.9 μs内重新组合到基态。NDI激发总是比ZnP激发更有效地形成电荷分离态。对桥-受体片段的DFT计算表明,在受体激发后,桥有望介导快速的供体-桥-受体电子级联。更一般地说,三唑桥在二偶体中可能表现出不对称的光诱导电子转移,动力学上倾向于由受体激发引发的空穴转移途径,而不是由供体激发促进的电子转移途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Long-Range Charge Separation in a Ferrocene-(zinc Porphyrin)-Naphtalenediimide Triad. Asymmetric Role of 1,2,3-Triazole Linkers
New dyad and triad systems based on a zinc porphyrin (ZnP), a naphthalenediimide (NDI), and a ferrocene (Fc) as molecular components, linked by 1,2,3-triazole bridges, ZnP-NDI (3) and Fc-ZnP-NDI (4), have been synthesized. Their photophysical behavior has been investigated by both visible excitation of the ZnP chromophore and UV excitation of the NDI unit. Dyad 3 exhibits relatively inefficient quenching of the ZnP singlet excited state, slow charge separation, and fast charge recombination processes. Excitation of the NDI chromophore, on the other hand, leads to charge separation by both singlet and triplet quenching pathways, with the singlet charge-separated (CS) state recombining in a subnanosecond time scale and the triplet CS state decaying in ca. 90 ns. In the triad system 4, primary formation of the Fc-ZnP+-NDI- charge-separated state is followed by a secondary hole shift process from ZnP to Fc. The product of the stepwise charge separation, Fc+-ZnP-NDI-, undergoes recombination to the ground state in 1.9 μs. The charge-separated states are always formed more efficiently upon NDI excitation than upon ZnP excitation. DFT calculations on a bridge-acceptor fragment show that the bridge is expected to mediate a fast donor-to-bridge-to-acceptor electron cascade following excitation of the acceptor. More generally, triazole bridges may behave asymmetrically with respect to photoinduced electron transfer in dyads, kinetically favoring hole-transfer pathways triggered by excitation of the acceptor over electron-transfer pathways promoted by excitation of the donor.
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