Cross-Coupled Phenyl- and Alkynyl-Based Phenanthrolines
and Their Effect on the Photophysical and Electrochemical Properties
of Heteroleptic Cu(I) Photosensitizers
posted on 2021-03-25, 12:36authored byFlorian Doettinger, Yingya Yang, Marie-Ann Schmid, Wolfgang Frey, Michael Karnahl, Stefanie Tschierlei
With
the aims of increasing the antenna system and improving the
photophysical properties of Cu(I)-based photosensitizers, the backbone
of 2,9-dimethyl-1,10-phenanthroline was selectively extended in the
5,6-position. Applying specifically tailored Suzuki–Miyaura
and “chemistry-on-the-complex” Sonogashira cross-coupling
reactions enabled the development of two sets of structurally related
diimine ligands with a broad variety of different phenyl- and alkynyl-based
substituents. The resulting 11 novel heteroleptic Cu(I) complexes,
including five solid-state structures, were studied with respect to
their structure–property relationships. Both sets of substituents
are able to red-shift the absorption maxima and to increase the absorptivity.
For the alkynyl-based complexes, this is accompanied by a significant
anodic shift of the reduction potentials. The phenyl-based substituents
strongly influence the emission wavelength and quantum yield of the
resulting Cu(I) complexes and lead to an increase in the emission
lifetime of up to 504 ns, which clearly indicates competition with
the benchmark system [(xantphos)Cu(bathocuproine)]PF6.