Cuprous complex luminescent material and preparation method thereof
A technology of luminescent materials and complexes, which is applied in the direction of luminescent materials, copper organic compounds, chemical instruments and methods, etc., can solve the problems that affect the promotion and application of OLEDs and market performance, the luminous intensity cannot meet the application requirements, and are expensive, etc., to achieve good results. Phosphorescent emission performance, good solubility and thermal stability, low production cost effect
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Embodiment 1
[0031] Synthesis of Cu(I) Complex Cu(2-PBO)(TPP) 2 (PF 6 ) single crystal: weigh 37mg Cu(CH 3 EN) 4 PF 6After dissolving 53mg of triphenylphosphine ligand in 5mL of dichloromethane, add 20mg of 2-PBO ligand to the above solution at one time, stir to dissolve it completely and then filter, and cover the filtrate with isopropanol to promote crystallization of the product , After standing for several days, a large number of thick yellow flaky crystals were precipitated. A yellow crystal with a size of 0.46mm×0.40mm×0.19mm was selected for X-ray single crystal structure test. The molecular structure of the compound is shown in the attached figure 1 , and its unit cell packing structure is shown in the attached figure 2 .
Embodiment 2
[0033] Weigh 112mg Cu(CH 3 EN) 4 PF 6 Dissolved in 20mL of acetonitrile, weighed 159mg of triphenylphosphine and 59mg of 2-PBO ligand and dissolved in 20mL of acetonitrile (the molar ratio of the three reactants was 1:2:1), the two acetonitrile solutions Mix and stir to make the coordination reaction fully occur, and finally filter the obtained yellow solution, remove all solvents by rotary evaporation, and dry in vacuo to obtain a crystalline yellow powder as the product with a yield of 98% (calculated as Cu).
[0034] For the complex Cu(2-PBO)(TPP) 2 (PF 6 ) phase-pure powder samples were subjected to a series of performance tests. Microscopic melting point tests showed a melting point of 180 degrees Celsius. TG and DSC tests show that the material has good thermal stability, its initial decomposition temperature reaches 250 degrees Celsius, and there is no other obvious thermal transition before its melting point, see attached image 3 . The steady-state fluorescence...
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