Abstract
TADF emission based on CD materials has inspired extensive attention in recent years. Herein, CD composites with afterglow color temperature-responsive were prepared by confining BCDs/ BPCDs in a g-C3N4 matrix. The covalent bonds extensively protect the triplet states and promote the ISC process, and the small △EST is sufficient to encourage the RISC process. At room temperature, the BCD composite exhibits a deep blue TADF emission, and the BPCD composite shows two TADF emission peaks in the blue-green region. BCD/ BPCD composites exhibit RTP emission at lower temperatures, and the competition between TADF and RTP leads to the color temperature-responsive properties in these composites. A simple concept of information encryption was developed to demonstrate the great potential of these composites in advanced security applications. Based on the high overall quantum yields (44 %) and broad full width at half maximum (over 140 nm) at the visible region of the BPCD composites, they are successfully applied to develop the single component fluorescence/ TADF dual-emission delay WLED with CIE coordinates and CRI of (0.32, 0.34) and 92. This work provides a new strategy for producing CDs-based TADF materials and may motivate CDs TADF materials applied in information encryption and advanced lighting application.
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