Ultrafast Rejuvenation of Aged CsPbI 3 Quantum Dots and Efficiency Improvement by Sequential 1-Dodecanethiol Post-Treatment Strategy.

Metal halide perovskite CsPbI 3 quantum dots (QDs) have sparked widespread research due to their intriguing optoelectronic. However, the CsPbI 3 QDs undergo inevitable aging and luminescence quenching caused by the weak binding ability of oleate (OA - )/oleylammonium (OAm + ), hindering further practical application. Herein, we have realized ultrafast rejuvenation of the aged CsPbI 3 QDs that have lost their photoluminescence performance based on a 1-dodecanethiol (DDT) surface ligand to restore the outstanding red light emission with a high photoluminescence quantum yield (PLQY) from 25 to 90%. Furthermore, CsPbI 3 QDs with DDT surface treatment maintain a cubic phase and high PLQY value even after 35 days. The DDT ligands can form a strong bond with Pb 2+ and passivate I - ion vacancies, enhancing radiative recombination efficiency and thereby improving the PLQY of the QDs. The stable yet easily accessible surface of the DDT-capped CsPbI 3 QDs was successfully employed as white LEDs and exhibited considerable enhanced luminous performance, suggesting promising application in solid-state lighting fields.