Ultralong organic room temperature phosphorescence(RTP)is attracting increas-ing attention due to its fascinating optical phenomena and wide applications.Among various RTP,excimer phosphorescence is of fundamental sig...Ultralong organic room temperature phosphorescence(RTP)is attracting increas-ing attention due to its fascinating optical phenomena and wide applications.Among various RTP,excimer phosphorescence is of fundamental significance,but it remains a considerable challenge to achieveflexible,multicolor and large-area excimer RTP materials,which should greatly advance the understanding and devel-opment of organic light-emitting devices.Herein,we present ultralong excimer RTPfilms by the self-assembly and confinement of terpyridine(Tpy)derivatives in polymeric matrices.Strikingly,the self-assembly of Tpy derivatives induces the formation of excimer complexes,thus immensely minimizing singlet-triplet split-ting energy(ΔEST)to promote the intersystem crossing process.Furthermore,the confinement by multiple hydrogen bonding interactions as well as the compact aggregation of phosphors jointly suppresses the nonradiative transitions,leading to long-lived excimer RTP(τ543.9 ms,19,000-fold improvements over the pow-=der).On account of the outstanding afterglow performance and color-tunability of RTP materials,flexible and large-areafilms were fabricated for intelligent display,anticounterfeiting,and time-resolved information encryption.展开更多
基金National Key Research and Development Program of China,Grant/Award Numbers:2022YFB3204301,2021YFA1201201National Natural Science Foundation of China,Grant/Award Numbers:22205249,U1967217+3 种基金China Postdoctoral Science Foundation,Grant/Award Numbers:2021TQ0341,2022M723252Zhejiang Provincial Natural Science Foundation of China,Grant/Award Number:LQ23B040002Natural Science Foundation of Ningbo,Grant/Award Number:2021J203Foundation of the Director of NIMTE,Grant/Award Number:2021SZKY0305。
文摘Ultralong organic room temperature phosphorescence(RTP)is attracting increas-ing attention due to its fascinating optical phenomena and wide applications.Among various RTP,excimer phosphorescence is of fundamental significance,but it remains a considerable challenge to achieveflexible,multicolor and large-area excimer RTP materials,which should greatly advance the understanding and devel-opment of organic light-emitting devices.Herein,we present ultralong excimer RTPfilms by the self-assembly and confinement of terpyridine(Tpy)derivatives in polymeric matrices.Strikingly,the self-assembly of Tpy derivatives induces the formation of excimer complexes,thus immensely minimizing singlet-triplet split-ting energy(ΔEST)to promote the intersystem crossing process.Furthermore,the confinement by multiple hydrogen bonding interactions as well as the compact aggregation of phosphors jointly suppresses the nonradiative transitions,leading to long-lived excimer RTP(τ543.9 ms,19,000-fold improvements over the pow-=der).On account of the outstanding afterglow performance and color-tunability of RTP materials,flexible and large-areafilms were fabricated for intelligent display,anticounterfeiting,and time-resolved information encryption.
