A dinuclear Pt(II) compound was reported to exhibit thermally activated delayed fluorescence (TADF); however, the luminescence mechanism remains elusive. To reveal relevant excited-state properties and luminescence mechanism of this Pt(II) compound, both density function theory (DFT) and time-dependent DFT (TD-DFT) calculations were carried out in this work. In terms of the results, the S and T states show mixed intraligand charge transfer (ILCT)/metal-to-ligand CT (MLCT) characters while the T state exhibits mixed ILCT/ligand-to-metal CT (LMCT) characters. Mechanistically, a four-state (S , S , T , and T ) model is proposed to rationalize the TADF behavior. The reverse intersystem crossing (rISC) process from the initial T to final S states involves two up-conversion channels (direct T →S and T -mediated T →T →S pathways) and both play crucial roles in TADF. At 300 K, these two channels are much faster than the T phosphorescence emission enabling TADF. However, at 80 K, these rISC rates are reduced by several orders of magnitude and become very small, which blocks the TADF emission; instead, only the phosphorescence is observed. These findings rationalize the experimental observation and could provide useful guidance to rational design of organometallic materials with superior TADF performances.
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