Partanen Iida, Al-Saedy Omar, Eskelinen Toni, Karttunen Antti J, Saarinen Jarkko J, Mrózek Ondrej, Steffen Andreas, Belyaev Andrey, Chou Pi-Tai, Koshevoy Igor O
Department of Chemistry, University of Eastern Finland, Yliopistokatu 7, 80101, Joensuu, Finland.
Department of Chemistry and Materials Science, Aalto University, 00076, Aalto, Finland.
Angew Chem Int Ed Engl. 2023 Sep 4;62(36):e202305108. doi: 10.1002/anie.202305108. Epub 2023 Jun 16.
Crystalline diphosphonium iodides [MeR P-spacer-R Me]I with phenylene (1, 2), naphthalene (3, 4), biphenyl (5) and anthracene (6) as aromatic spacers, are photoemissive under ambient conditions. The emission colors (λ values from 550 to 880 nm) and intensities (Φ reaching 0.75) are defined by the composition and substitution geometry of the central conjugated chromophore motif, and the anion-π interactions. Time-resolved and variable-temperature luminescence studies suggest phosphorescence for all the titled compounds, which demonstrate observed lifetimes of 0.46-92.23 μs at 297 K. Radiative rate constants k as high as 2.8×10 s deduced for salts 1-3 were assigned to strong spin-orbit coupling enhanced by an external heavy atom effect arising from the anion-π charge-transfer character of the triplet excited state. These rates of anomalously fast metal-free phosphorescence are comparable to those of transition metal complexes and organic luminophores that utilize triplet excitons via a thermally activated delayed fluorescence mechanism, making such ionic luminophores a new paradigm for the design of photofunctional and responsive molecular materials.
以亚苯基(1,2)、萘(3,4)、联苯(5)和蒽(6)作为芳香间隔基的结晶二碘化鏻盐[MeR P-间隔基-R Me]I,在环境条件下具有光发射性。发射颜色(λ值在550至880 nm之间)和强度(Φ高达0.75)由中心共轭发色团基序的组成和取代几何结构以及阴离子-π相互作用决定。时间分辨和变温发光研究表明,所有标题化合物均有磷光现象,在297 K下观察到的寿命为0.46 - 92.23 μs。为盐1 - 3推导的高达2.8×10 s的辐射速率常数k归因于由三重激发态的阴离子-π电荷转移特性引起的外部重原子效应增强的强自旋-轨道耦合。这些异常快速的无金属磷光速率与通过热激活延迟荧光机制利用三重激子的过渡金属配合物和有机发光体相当,使得此类离子发光体成为光功能和响应性分子材料设计的新范例。
