Potassium and Rubidium Copper Halide A2CuX3 (A = K, Rb, X = Cl, Br) Micro- and Nanocrystals with Near Unity Quantum Yields for White Light Applications

Lead-free ternary metal halides, especially cesium copper halides, have attracted tremendous research interest in the past two years owing to their outstanding optical properties, such as long photoluminescence (PL) decay lifetimes and high photoluminescence quantum yields (PLQYs). Recently, single crystals of potassium and rubidium copper halides have shown potential use in optoelectronics, and several synthetic methods have been reported for A(2)CuX(3) (A = K, Rb; X = Cl, Br) single crystals. Here, we have successfully synthesized A(2)CuX(3) micro- and nanocrystals by both anti-solvent recrystallization and hot injection methods, achieving size and shape control of these materials for the first time. A(2)CuX(3) micro- and nanocrystals show near-UV to deep blue emission, with emission peaks ranging from 380 to 400 nm. Emission properties included Stoke's shifts over 100 nm, a fwhm of approximately 50 nm, a long PL lifetime, and high PLQYs, in particular for K2CuCl3, which shows near unity PLQYs. In addition, these materials can be used to produce white light along with previously reported CsCu2I3 nanocrystals. A mixed solution of K2CuCl3 and CsCu2I3 nanocrystals exhibits white light emission with a Commission Internationale de l'Eclairage (CIE) coordinate of (0.3456, 0.3304) and a color rendering index (CRI) of 75 at a color temperature of 4855 K.

Automated summary

Lead-free ternary metal halides, particularly cesium copper halides, have been of significant interest due to their exceptional optical properties. Through various synthesis methods, micro- and nanocrystals of A(2)CuX(3) were successfully produced, displaying emission in the near-UV to deep blue range with unique properties. These materials have the potential to produce white light and improve color rendering index when combined with other nanocrystals.