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Probe exciplex structure of highly efficient thermally activated delayed fluorescence organic light emitting diodes.

Nature communications (2018-08-08)
Tzu-Chieh Lin, Monima Sarma, Yi-Ting Chen, Shih-Hung Liu, Ke-Ting Lin, Pin-Yi Chiang, Wei-Tsung Chuang, Yi-Chen Liu, Hsiu-Fu Hsu, Wen-Yi Hung, Wei-Chieh Tang, Ken-Tsung Wong, Pi-Tai Chou
RESUMEN

The lack of structural information impeded the access of efficient luminescence for the exciplex type thermally activated delayed fluorescence (TADF). We report here the pump-probe Step-Scan Fourier transform infrared spectra of exciplex composed of a carbazole-based electron donor (CN-Cz2) and 1,3,5-triazine-based electron acceptor (PO-T2T) codeposited as the solid film that gives intermolecular charge transfer (CT), TADF, and record-high exciplex type cyan organic light emitting diodes (external quantum efficiency: 16%). The transient infrared spectral assignment to the CT state is unambiguous due to its distinction from the local excited state of either the donor or the acceptor chromophore. Importantly, a broad absorption band centered at ~2060 cm-1 was observed and assigned to a polaron-pair absorption. Time-resolved kinetics lead us to conclude that CT excited states relax to a ground-state intermediate with a time constant of ~3 µs, followed by a structural relaxation to the original CN-Cz2:PO-T2T configuration within ~14 µs.

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PO-T2T, >=99% (HPLC)