Identifying Key Physical Properties of Simple Organic Drop Cast Films that give Visible to Ultraviolet Light Up-Conversion

IF 3 4区化学 Q3 CHEMISTRY, PHYSICAL

ChemPhotoChem Pub Date : 2025-01-16 DOI:10.1002/cptc.202400341

Francesco Lodola, Hector Miranda-Salinas, Suman Kuila, Andrew Danos, Andrew P. Monkman

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Abstract

We demonstrate UV-emitting films of 2,5-diphenyloxazole (PPO) sensitised by 3,3′-carbonylbis(7-diethylaminocoumarin) (CBDAC), prepared by simple drop casting with rapid solvent evaporation, giving up-converted emission even at low excitation intensities. The mechanisms of up-conversion and triplet quenching in these films has been studied through time-resolved and steady-state spectroscopy. The CBDAC sensitizer aggregates strongly even at low concentrations, with CBDAC phosphorescence being observed in all films, indicating that many triplet excitons do not transfer to the surrounding PPO annihilator. Nonetheless, at very low sensitiser concentrations (1 : 40000 CBDAC : PPO), up-converted PPO UV emission is observed at room temperature which is critically dependent on the film formation conditions. Only in films cast onto substrates held at 60 °C is dominant TTA-UC observed. Comparing to similar sensitised films of TIPS-naphthalene, which are TTA-inactive, we deduce that π-stacking of the PPO, prevented by the TIPS side groups in the TIPS-naphthalene films is crucial for efficient triplet diffusion and up-conversion.

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确定可见光到紫外光上转换的简单有机滴铸膜的关键物理性质

研究了3,3′-羰基双（7-二乙基氨基香豆素）（CBDAC）致敏的2,5-二苯氧恶唑（PPO）紫外发光薄膜，该薄膜采用快速溶剂蒸发的简单滴铸法制备，即使在低激发强度下也能产生上转换发光。利用时间分辨光谱和稳态光谱研究了这些薄膜的上转换和三重态猝灭机理。即使在低浓度下，CBDAC敏化剂也会强烈聚集，在所有薄膜中都观察到CBDAC磷光，这表明许多三重态激子不会转移到周围的PPO湮灭子。尽管如此，在非常低的增敏剂浓度（1:40 000 CBDAC: PPO）下，在室温下观察到上转换的PPO紫外线发射，这主要取决于薄膜的形成条件。只有在60°C的基片上，才观察到主要的TTA-UC。与类似的TIPS-萘敏化膜相比，我们推断TIPS-萘膜中由TIPS侧基阻止的PPO的π堆积对有效的三重态扩散和上转换至关重要。

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来源期刊

ChemPhotoChem Chemistry-Physical and Theoretical Chemistry

CiteScore

5.80

自引率

5.40%

发文量

165

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