Lanthanide Sensitizers for Large Anti-Stokes Shift NIR-to-VIS Triplet-Triplet Annihilation Photon Upconversion.

The upconversion of near-infrared (NIR) to visible (vis) photons is of interest for display technologies and energy conversion. Although triplet-triplet annihilation (TTA) offers a mechanism for upconversion that works efficiently at low incident irradiance flux densities, current strategies for NIR-vis upconversion based on TTA have fundamental limitations. Herein, we report a strategy for NIR-vis TTA based on lanthanide-containing complexes to sensitize the upconversion. We demonstrate a beta-diketonate complex of Yb3+ paired with rubrene that emits yellow (lambda(em) = 559 nm) under NIR excitation (lambda(exc) = 980 nm). This corresponds to an exceptional anti-Stokes shift of just less than 1 eV. Thus, lanthanide complexes could unlock high-performance NIR-vis upconversion, with lanthanide sensitizers overcoming the energy loss, reabsorption, and short triplet lifetime that fundamentally limit porphyrin, nanocrystals, and direct S-0-T-1 sensitizers.