Infrared Photon Pair-Production in Ligand-Sensitized Lanthanide Nanocrystals

This report details spectroscopic characterizations of rare-earth, core-shell nanoparticles decorated with the f-element chelator 3,4,3-LI(1,2-HOPO). Evidence of photon downconversion is corroborated through detailed power dependence measurements, which suggest two-photon decay paths are active in these materials, albeit only representing a minority contribution of the sum luminescence, with emission being dominated by normal, Stokes' shifted fluorescence. Specifically, ultraviolet ligand photosensitization of Nd(3+) ions in a NaGdF(4) host shell results in energy transfer to a Nd(3+)/Yb(3+)-doped NaGdF(4) nanoparticle core. The population and subsequent decay of core, Yb(3+) (2)F(5/2) states result in a spectral shift of 620 nm, manifested in a NIR emission displaying luminescence profiles diagnostic of Yb(3+) and Nd(3+) excited state decays. Emphasis is placed on the generality of this material architecture for realizing ligand-pumped, multi-photon downconversion, with the Nd(3+)/Yb(3+) system presented here functioning as a working prototype for a design principle that may be readily extended to other lanthanide pairs.