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Distributive Nd-to-Yb Energy Transfer within Pure [YbNdYb] Heterometallic Molecules.

Diamantoula ManiakiAnnika SickingerLeoní A BarriosDavid AguilàOlivier RoubeauNicholas S SettineriYannick GuyotFrançois RiobéOlivier MauryLaura Abad GalánGuillem Aromí
Published in: Inorganic chemistry (2023)
Facile access to site-selective hetero-lanthanide molecules will open new avenues in the search of novel photophysical phenomena based on Ln-to-Ln' energy transfer (ET). This challenge demands strategies to segregate efficiently different Ln metal ions among different positions in a molecule. We report here the one-step synthesis and structure of a pure [YbNdYb] ( 1 ) coordination complex featuring short Yb···Nd distances, ideal to investigate a potential distributive ( i.e. , from one donor to two acceptors) intramolecular ET from one Nd 3+ ion to two Yb 3+ centers within a well-characterized molecule. The difference in ionic radius is the mechanism allowing to allocate selectively both types of metal ion within the molecular structure, exploited with the simultaneous use of two β-diketone-type ligands. To assist the photophysical investigation of this heterometallic species, the analogues [YbLaYb] ( 2 ) and [LuNdLu] ( 3 ) have also been prepared. Sensitization of Yb 3+ and Nd 3+ in the last two complexes, respectively, was observed, with remarkably long decay times, facilitating the determination of the Nd-to-Yb ET within the [YbNdYb] composite. This ET was demonstrated by comparing the emission of iso-absorbant solutions of 1 , 2 , and 3 and through lifetime determinations in solution and solid state. The comparatively high efficiency of this process corroborates the facilitating effect of having two acceptors for the nonradiative decay of Nd 3+ created within the [YbNdYb] molecule.
Keyphrases
  • energy transfer
  • solid state
  • quantum dots
  • high efficiency
  • minimally invasive
  • solar cells
  • molecular docking
  • mass spectrometry
  • high resolution
  • solid phase extraction
  • molecularly imprinted