Unraveling the mechanochemical synthesis and luminescence in Mn-II-based two-dimensional hybrid perovskite (C4H9NH3)(2)PbCl4

Zhou, Guojun; Guo, Shaoqiang; Zhao, Jing; Molokeev, Maxim; Liu, Quanlin; Zhang, Junying; Xia, Zhiguo Source: SCIENCE CHINA-MATERIALS, 62 (7):1013-1022; 10.1007/s40843-018-9404-4 JUL 2019

The mechanochemical route is a facile and fast way and has received much attention for developing versatile advanced functional materials. Herein, we reported a mechanochemical synthesis for incorporating divalent manganese ions (MnII) into a two-dimensional (2D) hybrid perovskite (C4H9NH3)2PbCl4. The mild external stimuli originating from the grinding at room temperature enabled the formation of MnII-doped 2D hybrid perovskites, and rapidly changed the luminescence characteristics. The photoluminescence analyses show that the violet and orange emissions are attributed to (C4H9NH3)2Pb1–xMnxCl4 band-edge emission and the T16A1 transition of Mn2+ resulting from an efficient energy transfer process, respectively. Site preference and distribution of the doped Mn2+ cations on the locations of Pb2+ were analyzed. The formation energy calculated by the density functional theory (DFT) indicates that the Mn2+ ions can rapidly enter the crystal lattice due to the unique 2D crystal structure of the hybrid perovskite. Such a case of mechanochemical synthesis for the 2D hybrid perovskite motivates many novel emerging materials and the related applications.


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