Abstract
The concept of doping Mn2+ ions into II–VI semiconductor nanocrystals (NCs) was recently extended to perovskite NCs. To date, most studies on Mn2+ doped NCs focus on enhancing the emission related to the Mn2+ dopant via an energy transfer mechanism. Herein, we found that the doping of Mn2+ ions into CsPbCl3 NCs not only results in a Mn2+‐related orange emission, but also strongly influences the excitonic properties of the host NCs. We observe for the first time that Mn2+ doping leads to the formation of Ruddlesden–Popper (R.P.) defects and thus induces quantum confinement within the host NCs. We find that a slight doping with Mn2+ ions improves the size distribution of the NCs, which results in a prominent excitonic peak. However, with increasing the Mn2+ concentration, the number of R.P. planes increases leading to smaller single‐crystal domains. The thus enhanced confinement and crystal inhomogeneity cause a gradual blue shift and broadening of the excitonic transition, respectively.
Highlights
We find that a slight doping with Mn2+ ions improves the size distribution of the NCs, which results in a prominent excitonic peak
Eventually leading to dopant emission.[2a,b] In particular, Mn2+-doping of II–VI semiconductor NC hosts is the most investigated case, which already resulted in an understanding of exciton-to-dopant energy and electron-transfer mechanisms.[2a,3] The transfer of the exciton energy from a semiconductor host to Mn2+ dopants leads to orange emission from a spin-forbidden 4T1–6A1 Mn2+ concentration (Mn) d–d transition.[3a,4] Recently, this concept has been extended to halide perovskite NCs.[5]
Previous studies claimed that the Mn replaces Pb in perovskite crystal lattice[6c] and uniformly distributes throughout host matrix.[6k] we find that the doping of Mn2+ ions into CsPbCl3 NCs strongly influences the excitonic properties of host perovskite NCs
Summary
Previous studies claimed that the Mn replaces Pb in perovskite crystal lattice[6c] and uniformly distributes throughout host matrix.[6k] we find that the doping of Mn2+ ions into CsPbCl3 NCs strongly influences the excitonic properties of host perovskite NCs. The excitonic absorption peak becomes prominent and the PL quantum yield (QY) of the excitonic emission enhances at low dopant concentrations.
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