The Rhodamine–Perylene Compact Electron Donor–Acceptor Dyad: Spin-Orbit Charge-Transfer Intersystem Crossing and the Energy Balance of the Triplet Excited States

Photochem Pub Date : 2024-01-29 DOI:10.3390/photochem4010004
M. Imran, Dongyi Liu, Kaiyue Ye, Xue Zhang, Jianzhang Zhao
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Abstract

We prepared a rhodamine (RB)–perylene (Pery) compact electron donor/acceptor dyad (RB–Pery) to study the spin-orbit charge-transfer intersystem crossing (SOCT–ISC). The UV–vis absorption spectrum indicates a negligible electronic interaction between the donor and acceptor at ground state. However, the fluorescence of both the RB and Pery units are quenched in the dyad, which is attributed to the photoinduced electron transfer, supported by the electrochemical studies. Nanosecond transient absorption (ns-TA) spectra show delocalized triplet states, i.e., there is an excited-state equilibrium between Pery and the RB triplet states. The triplet state lifetime was determined as 109.8 μs. With intermolecular triplet–triplet energy transfer, monitored using ns-TA spectra, the triplet-state energy balance between RB and Pery in RB–Pery was confirmed. The proposed cascade photophysical processes of the dyad are 1RB*-Pery→RB–Pery+•→[3RB*-Pery↔RB-3Pery*]. Moreover, long-lived rhodamine radical cation (in milliseconds) was detected in both deaerated/aerated non-polar or low-polarity solvents (i.e., p-xylene, toluene). The potential energy curve of the dyad against the variation in the dihedral angle between the two units indicates large torsional freedom (53°~128°) in RB–Pery, which leads to inefficient SOCT–ISC; consequently, low singlet-oxygen quantum yields (ΦΔ = 2~8%) were observed.
罗丹明-苝紧密电子供体-受体二元体:自旋轨道电荷转移系统间交叉和三重激发态的能量平衡
我们制备了罗丹明(RB)-苝(Pery)紧密电子供体/受体二元化合物(RB-Pery),以研究自旋轨道电荷转移系统间交叉(SOCT-ISC)。紫外-可见吸收光谱表明,在基态时,供体和受体之间的电子相互作用可以忽略不计。然而,在二元化合物中,RB 和 Pery 单元的荧光都被淬灭,这归因于光诱导的电子转移,电化学研究也证实了这一点。纳秒瞬态吸收(ns-TA)光谱显示了脱局域三重态,即 Pery 和 RB 三重态之间存在激发态平衡。三重态的寿命被测定为 109.8 μs。利用 ns-TA 光谱监测分子间三重态-三重态能量转移,证实了 RB-Pery 中 RB 和 Pery 之间的三重态能量平衡。提出的二元化合物级联光物理过程为:1RB*-Pery→RB-Pery+-→[3RB*-Pery↔RB-3Pery*]。此外,在脱气/充气的非极性或低极性溶剂(如对二甲苯、甲苯)中都检测到了长寿命的罗丹明自由基阳离子(以毫秒计)。根据两个单元之间的二面角变化绘制的二元体势能曲线表明,RB-Pery 的扭转自由度较大(53°~128°),导致 SOCT-ISC 效率低下;因此,观察到的单氧量子产率较低(ΦΔ = 2~8%)。
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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CiteScore
3.60
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