Recently, the remarkable advances in thermally activated delayed fluorescence (TADF) materials have attracted much attention due to their 100% exciton utilization efficiency in organic light-emitting diodes (OLEDs). Although the commercialization of TADF materials is at an early stage, they exhibit enormous potential for next-generation OLEDs due to the comparable electroluminescence performance to metal of their phosphorescent complex counterparts, but without the presence of precious metal elements. This review summarizes the different types of TADF small molecules with various photophysical properties and the state-of-the-art molecular design strategies. Furthermore, the device engineering is discussed, and emerging optoelectronic applications, such as organic light-emitting electrochemical cells, organic lasing, and organic scintillators, are introduced. It is anticipated that this review can clarify the design of efficient TADF emitters and point out the direction of future development.
Keywords: charge transfer; multi-resonance TADF; organic light-emitting diode; thermally activated delayed fluorescence; through-space.
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