Colloidal Synthesis and Tunable Multicolor Emission of Vacancy‐Ordered Cs<sub>2</sub>HfCl<sub>6</sub> Perovskite Nanocrystals
Siping Liu, Bin Yang, Junsheng Chen, Daoyuan Zheng, Zhe Tang, Wei Deng, Keli Han
Abstract
Abstract Vacancy‐ordered perovskite nanocrystals (NCs) have recently attracted much interest owing to their unique structure and optical properties; however, regulating self‐trapped excitons (STEs) in vacancy‐ordered perovskite NCs to exhibit tunable multicolor emission is still challenging because of the highly localized charge distribution and strong carrier‐phonon coupling. Herein, the first colloidal synthesis of lead‐free vacancy‐ordered Cs 2 HfCl 6 perovskite NCs by a hot‐injection method using hafnium acetylacetonate as metal precursors is reported. The passivation strategy of sub‐bandgap trap states inside Cs 2 HfCl 6 NCs is proposed by doping Sb 3+ . X‐ray photoelectron spectroscopy (XPS) measurements verify that the passivation of sub‐bandgap trap states may be attributed to the enhanced chemical interaction between the Hf 4+ cations and Cl – anions. Simultaneously, the introduction of Sb 3+ ions yields a bright orange emission. Employing lanthanide acetylacetonate compounds, four lanthanide ions including Pr 3+ , Eu 3+ , Tb 3+ , and Ho 3+ are doped into the Cs 2 HfCl 6 NCs, which achieves tunable multicolor emissions (from blue to green to pink) through the energy transfer from STEs to lanthanide ions. This investigation not only develops a novel vacancy‐ordered perovskite NCs, but also provides effective strategies for tuning the optical properties of lead‐free vacancy‐ordered perovskite NCs.