부산대학교 도서관

The horizontal orientation of the emissive transition dipole moment (TDM) of emissive molecules is a crucial factor in improving the efficiency of organic light‐emitting diodes (OLEDs). However, the mechanism of this horizontal orientation remains unclear. Herein, to elucidate the horizontal orientation mechanism of the TDM of the molecules in thermally activated delayed fluorescent (TADF) emitters, the relationship between the horizontal orientation ratio (Θ) of the TDM and the key parameters of stick‐like TADF emitters dispersed in carbazole‐based host materials is systematically and quantitatively investigated. The introduction of functional groups containing weak CH/n (n = O, N) hydrogen bonds into the host material is found to significantly increase the Θ values up to 30%. The physical parameters of the dispersed emitter exhibit a strong relationship with the Θ values, with the following influence order: glass transition temperature (Tg) ≥ total surface area of the largest π‐plane and the corresponding parallel π‐plane > molecular weight > aspect ratio > permanent dipole moment. The Tg value of the host material is another key parameter determining the Θ values. By using a P=O‐based host material, namely mCP2PO, a high PLQY of 97%, a high Θ value of 88%, and a sky‐blue OLED with an EQE of 37.6% are simultaneously realized. [ABSTRACT FROM AUTHOR]