Solution Synthesis and Light-Emitting Applications of One-Dimensional Lead-Free Cerium(III) Metal Halides.

Combining rare earth elements with the halide perovskite structure offers valuable insights into designing nonlead (Pb) luminescent materials. However, most of these compositions tend to form zero-dimensional (0D) networks of metal-halide polyhedra, with higher-dimensional (1D, 2D, and 3D) structures receiving relatively less exploration. Herein, we present synthesis and optical properties of Cs 3 CeCl 6 ·3H 2 O, characterized by its unique 1D crystal structure. The conduction band minimum of Cs 3 CeCl 6 ·3H 2 O becomes less localized as a result of the increased structural dimension, making it possible for the materials to achieve an efficient electrical injection. For both Cs 3 CeCl 6 ·3H 2 O single crystals and nanocrystals, we also observed remarkable luminescence with near-unity photoluminescence quantum yield and exceptional phase stability. Cs 3 CeCl 6 ·3H 2 O single crystals demonstrate an X-ray scintillation light yield of 31900 photons/MeV, higher than that of commercial LuAG:Ce (22000 photons/MeV); electrically driven light-emitting diodes fabricated with Cs 3 CeCl 6 ·3H 2 O nanocrystals yield the characteristic emission of Ce 3+ , indicating their potential use in next-generation violet-light-emitting devices.