Thermally activated delayed fluorescence(TADF)and room temperature phosphorescence(RTP)molecules hold promising application prospects in the field of organic light emitting diodes(OLEDs),primarily attributed to their ...Thermally activated delayed fluorescence(TADF)and room temperature phosphorescence(RTP)molecules hold promising application prospects in the field of organic light emitting diodes(OLEDs),primarily attributed to their significant advantages in enhancing device stability and lumines-cence efficiency.Notably,TADF and RTP molecules can achieve nearly 100%exciton utilization without necessitating costly and limited precious metal elements.However,the primary challenges confronting TADF and RTP molecules at present encompass limitations in emission color,low luminescence efficien-cy,severe efficiency roll-off and so on.Given these points,this paper presents a comprehensive overview of the latest research progress in TADF and RTP molecules.We delve into the mechanisms by which TADF molecules achieve efficient fluorescence emission through unique molecular structural designs,fre-quently involving sophisticated intramolecular charge transfer processes and precise energy level modula-tion.Simultaneously,we provide an in-depth analysis of the unique luminescence properties and photo-physical mechanisms of RTP molecules.Furthermore,the article focuses on the design strategies for TADF and RTP molecules,encompassing the manipulation of molecular structures,electronic structures and the enhancement of charge transfer effects.By examining these strategies,we aim to provide a com-prehensive perspective on the research of TADF and RTP molecules.We hope that through this review,it could offer some guidance for future research and inspire the exploration of more innovative TADF and RTP molecules.展开更多
基金supported by the National Natural Science Foundation of China(12274266,12374269,12104248 and 12474258)supporting of the Open Fund of the State Key Laboratory of Luminescent Materials and Devices(South China University of Technology)and Taishan Scholar Project of Shandong Province.
文摘Thermally activated delayed fluorescence(TADF)and room temperature phosphorescence(RTP)molecules hold promising application prospects in the field of organic light emitting diodes(OLEDs),primarily attributed to their significant advantages in enhancing device stability and lumines-cence efficiency.Notably,TADF and RTP molecules can achieve nearly 100%exciton utilization without necessitating costly and limited precious metal elements.However,the primary challenges confronting TADF and RTP molecules at present encompass limitations in emission color,low luminescence efficien-cy,severe efficiency roll-off and so on.Given these points,this paper presents a comprehensive overview of the latest research progress in TADF and RTP molecules.We delve into the mechanisms by which TADF molecules achieve efficient fluorescence emission through unique molecular structural designs,fre-quently involving sophisticated intramolecular charge transfer processes and precise energy level modula-tion.Simultaneously,we provide an in-depth analysis of the unique luminescence properties and photo-physical mechanisms of RTP molecules.Furthermore,the article focuses on the design strategies for TADF and RTP molecules,encompassing the manipulation of molecular structures,electronic structures and the enhancement of charge transfer effects.By examining these strategies,we aim to provide a com-prehensive perspective on the research of TADF and RTP molecules.We hope that through this review,it could offer some guidance for future research and inspire the exploration of more innovative TADF and RTP molecules.
