Highly luminescent charge-neutral europium(iii) and terbium(iii) complexes with tridentate nitrogen ligands

Highly luminescent charge-neutral europium(iii) and terbium(iii) complexes with tridentate nitrogen ligands

We report on the synthesis of tridentate-nitrogen pyrazole-pyridine-tetrazole (L(1)H) and pyrazole-pyridine-triazole (L(2)H) ligands and their complexation with lanthanides (Ln = Gd(iii), Eu(iii) and Tb(iii)) resulting in stable, charge-neutral complexes Ln(L(1))3 and Ln(L(2))3, respectively. X-ray...

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Bibliographic Details
Published in:Dalton transactions : an international journal of inorganic chemistry Vol. 44; no. 35; p. 15611
Main Authors: Senthil Kumar, Kuppusamy, Schäfer, Bernhard, Lebedkin, Sergei, Karmazin, Lydia, Kappes, Manfred M, Ruben, Mario
Format: Journal Article
Language:English
Published: England 21-09-2015
Subjects:
Coordination Complexes - chemical synthesis
Coordination Complexes - chemistry
Crystallography, X-Ray
Europium - chemistry
Lanthanoid Series Elements - chemistry
Luminescence
Luminescent Agents - chemical synthesis
Luminescent Agents - chemistry
Models, Molecular
Nitrogen - chemistry
Pyridines - chemistry
Terbium - chemistry
Tetrazoles - chemistry
Triazoles - chemistry
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Summary:We report on the synthesis of tridentate-nitrogen pyrazole-pyridine-tetrazole (L(1)H) and pyrazole-pyridine-triazole (L(2)H) ligands and their complexation with lanthanides (Ln = Gd(iii), Eu(iii) and Tb(iii)) resulting in stable, charge-neutral complexes Ln(L(1))3 and Ln(L(2))3, respectively. X-ray crystallographic analysis of the complexes with L(1) ligands revealed tricapped trigonal coordination geometry around the lanthanide ions. All complexes show bright photoluminescence (PL) in the solid state, indicating efficient sensitization of the lanthanide emission via the triplet states of the ligands. In particular, the terbium complexes show high PL quantum yields of 65 and 59% for L(1) and L(2), respectively. Lower PL efficiencies of the europium complexes (7.5 and 9%, respectively) are attributed to large energy gaps between the triplet states of the ligands and accepting levels of Eu(iii). The triplet state energy can be reduced by introducing an electron withdrawing (EW) group at the 4 position of the pyridine ring. Such substitution of L(1)H with a carboxylic ester (COOMe) EW group leads to a europium complex with increased PL quantum yield of 31%. A comparatively efficient PL of the complexes dissolved in ethanol indicates that the lanthanide ions are shielded against nonradiative deactivation via solvent molecules.
ISSN:1477-9234
DOI:10.1039/c5dt02186c