Effects of Ligand Geometry on the Photophysical Properties of Photoluminescent Eu(III) and Sm(III) 1‑Hydroxypyridin-2-one Complexes in Aqueous Solution
posted on 2016-01-04, 00:00authored byLena J. Daumann, David S. Tatum, Christopher M. Andolina, Joseph I. Pacold, Anthony D’Aléo, Ga-lai Law, Jide Xu, Kenneth N. Raymond
A series of 10 tetradentate 1-hydroxy-pyridin-2-one
(1,2-HOPO)
ligands and corresponding eight-coordinated photoluminescent Eu(III)
and Sm(III) complexes were prepared. Generally, the ligands differ
by the linear (nLI) aliphatic linker length, from 2 to 8 methylene
units between the bidentate 1,2-HOPO chelator units. The photoluminescent
quantum yields (Φtot) were found to vary with the
linker length, and the same trend was observed for the Eu(III) and
Sm(III) complexes. The 2LI and 5LI bridged complexes are the brightest (Φtotxε).
The change in ligand wrapping pattern between 2LI and 5LI complexes
observed by X-ray diffraction (XRD) is further supported by density
functional theory (DFT) calculations. The bimodal Φtot trends of the Eu(III) and Sm(III) complexes are rationalized by
the change in ligand wrapping pattern as the bridge (nLI) is increased in length.