Delayed Doublet Emission in a Cerium(III) Complex

Doublet emission from open-shell molecules has demonstrated its research and application value in recent years. However, understandings of the photoluminescence mechanism of open-shell molecules are far less than that of closed-shell molecules, leading to challenges in molecular design of efficient doublet emission systems. Here we report a cerium(III) 4-(9H-carbozol-9-yl)phenyl-tris(pyrazolyl)borate complex Ce(CzPhTp)(3) with a new luminescence mechanism of delayed doublet emission, which also represents the first example with metal-centered delayed photoluminescence. The energy gap between the doublet and triplet excited states of Ce(CzPhTp)(3) is reduced by the management of the inner and outer coordination spheres, thereby promoting efficient energy transfer between the two excited states and activating the delayed emission. The photoluminescence mechanism discovered may provide a new way for the design of efficient doublet emission and bring insights into rational molecular design and energy level regulation in open-shell molecules.

Automated summary

Doublet emission from open-shell molecules has research and application value. However, the understanding of the photoluminescence mechanism of open-shell molecules is less than that of closed-shell molecules, making the design of efficient doublet emission systems challenging. This study presents a cerium(III) complex Ce(CzPhTp)(3) with a new luminescence mechanism of delayed doublet emission, representing the first example with metal-centered delayed photoluminescence. The energy gap between the doublet and triplet excited states is reduced by coordinating the inner and outer spheres, promoting efficient energy transfer and activating delayed emission.