通过热激活延迟荧光实现的第14族分子化合物的长寿命光致发光

Long-Lived Photoluminescence of Molecular Group 14 Compounds through Thermally Activated Delayed Fluorescence.

作者信息

Gowda Anitha S, Lee Tia S, Rosko Michael C, Petersen Jeffrey L, Castellano Felix N, Milsmann Carsten

机构信息

C. Eugene Bennett Department of Chemistry, West Virginia University, Morgantown, West Virginia 26506, United States.

Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States.

出版信息

Inorg Chem. 2022 May 16;61(19):7338-7348. doi: 10.1021/acs.inorgchem.2c00182. Epub 2022 May 4.

DOI:10.1021/acs.inorgchem.2c00182

PMID:35507416

Abstract

Photoluminescent molecules exploiting the sizable spin-orbit coupling constants of main group metals and metalloids to access long-lived triplet excited states are relatively rare compared to phosphorescent transition metal complexes. Here we report the synthesis of three air- and moisture-stable group 14 compounds E(PDP), where E = Si, Ge, or Sn and [PDP] is the doubly deprotonated form of 2,6-bis(5-methyl-3-phenyl-1-pyrrol-2-yl)pyridine. In solution, all three molecules exhibit exceptionally long-lived triplet excited states with lifetimes in the millisecond range and show highly efficient photoluminescence (Φ ≤ 0.49) due to competing prompt fluorescence and thermally activated delayed fluorescence at and around room temperature. Temperature-dependent steady-state emission spectra and photoluminescent lifetime measurements provided conclusive evidence for the two distinct emission pathways. Picosecond transient absorption spectroscopy allowed further analysis of the intersystem crossing (ISC) between singlet and triplet manifolds (τ = 0.25-3.1 ns) and confirmed the expected trend of increased ISC rates for the heavier elements in otherwise isostructural compounds.

摘要

与磷光过渡金属配合物相比，利用主族金属和类金属可观的自旋轨道耦合常数来实现长寿命三重态激发态的光致发光分子相对较少。在此，我们报道了三种对空气和湿气稳定的14族化合物E(PDP)的合成，其中E = Si、Ge或Sn，且[PDP]是2,6 - 双(5 - 甲基 - 3 - 苯基 - 1 - 吡咯 - 2 - 基)吡啶的双去质子化形式。在溶液中，所有这三种分子都表现出异常长寿命的三重态激发态，其寿命在毫秒范围内，并且由于在室温及室温附近存在竞争的瞬发荧光和热激活延迟荧光，因而显示出高效的光致发光(Φ≤0.49)。温度依赖的稳态发射光谱和光致发光寿命测量为这两种不同的发射途径提供了确凿证据。皮秒瞬态吸收光谱法允许对单重态和三重态之间的系间窜越(ISC)(τ = 0.25 - 3.1 ns)进行进一步分析，并证实了在其他方面为同结构化合物中较重元素ISC速率增加的预期趋势。

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通过热激活延迟荧光实现的第14族分子化合物的长寿命光致发光

Long-Lived Photoluminescence of Molecular Group 14 Compounds through Thermally Activated Delayed Fluorescence.

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