Chiral organometallic Pt(ii) complexes have been demonstrated to be excellent circularly polarized luminescence (CPL) materials due to their rich phosphorescence and strong self-assembly characteristics. However, it remains a formidable task to simultaneously achieve high luminance () and electroluminescence dissymmetry factor ( ) values for circularly polarized electroluminescence (CP-EL) devices of Pt(ii) complex-based emitters. In this study, we carry out a straightforward and efficient protocol to construct highly CPL-active helical columnar () emitters by using chiral homoleptic triazolatoplatinum(ii) metallomesogens (/-HPt). The peripheral flexible groups can not only improve solubility but also favor the induction of chirality and liquid crystal behavior. The resultant complexes /-HPt can self-assemble into the mesophase over a broad temperature range (6-358 °C) and exhibit excellent phosphorescence (: up to 86%), resulting in intense CPL signals after thermal annealing ( = 615 nm and | | = 0.051). Using emitting layers (EML) based on /-HPt in solution-processed CP-EL devices, and | | of CP-EL can reach up to 11 379 cd m and 0.014, respectively. With comprehensive consideration of and , this investigation shows the excellent performances among Pt(ii) complex-based CP-EL devices.
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| http://dx.doi.org/10.1039/d4sc05781c | DOI Listing |
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