1,2,4-Triazines in the Synthesis of Bipyridine Bisphenolate
ONNO Ligands and Their Highly Luminescent Tetradentate
Pt(II) Complexes for Solution-Processable OLEDs
posted on 2018-03-14, 11:50authored byPiotr Pander, Rachel Bulmer, Ross Martinscroft, Stuart Thompson, Frank W. Lewis, Thomas J. Penfold, Fernando B. Dias, Valery N. Kozhevnikov
This
article describes
a convenient method for the synthesis of ONNO-type
tetradentate 6,6′-bis(2-phenoxy)-2,2′-bipyridine (bipyridine
bisphenolate, BpyBph) ligands and their platinum(II) complexes. The
methodology includes the synthesis of 1,2,4-triazine precursors followed
by their transformation to functionalized pyridines by the Boger reaction.
Two complementary routes employing 3,3′- and 5,5′-bis-triazines
allow a modification of the central pyridine rings in different positions,
which was exemplified by the introduction of cyclopentene rings. The
new ligands were used to prepare highly luminescent ONNO-type
Pt(II) complexes. The position of the cyclopentene rings significantly
influences the solubility and photophysical properties of these complexes.
Derivatives with closely positioned cyclopentene rings are soluble
in organic solvents and proved to be the best candidate for solution-processable
organic light-emitting devices (OLEDs), showing efficient single-dopant
candlelight electroluminescence.