Heavy-Atom-Free Room-Temperature Phosphorescent Organic Light-Emitting Diodes Enabled by Excited States Engineering

Room temperature phosphorescence materials offer great opportunities for applications in optoelectronics, due to their unique photophysical characteristics. However, heavy-atom-free organic emitters that can realize distinct electrophosphorescence are rarely exploited. Herein a new approach for designing heavy-atom-free organic room temperature phosphorescence emitters for organic light-emitting diodes is presented. The subtle tuning of the singlet and triplet excited states energies by appropriate choice of host matrix allows tailored emission properties and switching of emission channels between thermally activated delayed fluorescence and room temperature phosphorescence. Moreover, an efficient and heavy-atom-free room temperature phosphorescence organic light-emitting diode using the developed emitter is realized.

室温磷光（room temperature phosphorescence, RTP）材料凭借其独特的光物理特性，在光电子学领域拥有广阔的应用前景。然而，能够实现优异电致磷光的无重原子有机发光体却鲜有开发与研究。本文提出了一种面向有机发光二极管（organic light-emitting diodes, OLED）的无重原子有机室温磷光发光体的全新设计策略。通过合理选择主体基质，可对单重态与三重激发态的能级进行精细调控，从而实现发光性能的定制化，并实现热激活延迟荧光（thermally activated delayed fluorescence, TADF）与室温磷光之间的发光通道切换。此外，基于所开发的发光体，本研究成功制备出高效无重原子室温磷光有机发光二极管。