Author
Listed:
- Marina Gerhard
(Lund University)
- Boris Louis
(Lund University
KU Leuven, Molecular Imaging and Photonics)
- Rafael Camacho
(KU Leuven, Molecular Imaging and Photonics)
- Aboma Merdasa
(Helmholtz-Zentrum Berlin für Materialien und Energie GmbH, Helmholtz-Zentrum Berlin)
- Jun Li
(Lund University)
- Alexander Kiligaridis
(Lund University)
- Alexander Dobrovolsky
(Lund University)
- Johan Hofkens
(KU Leuven, Molecular Imaging and Photonics)
- Ivan G. Scheblykin
(Lund University)
Abstract
Organo-metal halide perovskites are promising solution-processed semiconductors, however, they possess diverse and largely not understood non-radiative mechanisms. Here, we resolve contributions of individual non-radiative recombination centers (quenchers) in nanocrystals of methylammonium lead iodide by studying their photoluminescence blinking caused by random switching of quenchers between active and passive states. We propose a model to describe the observed reduction of blinking upon cooling and determine energetic barriers of 0.2 to 0.8 eV for enabling the switching process, which points to ion migration as the underlying mechanism. Moreover, due to the strong influence of individual quenchers, the crystals show very individually-shaped photoluminescence enhancement upon cooling, suggesting that the high variety of activation energies of the PL enhancement reported in literature is not related to intrinsic properties but rather to the defect chemistry. Stabilizing the fluctuating quenchers in their passive states thus appears to be a promising strategy for improving the material quality.
Suggested Citation
Marina Gerhard & Boris Louis & Rafael Camacho & Aboma Merdasa & Jun Li & Alexander Kiligaridis & Alexander Dobrovolsky & Johan Hofkens & Ivan G. Scheblykin, 2019.
"Microscopic insight into non-radiative decay in perovskite semiconductors from temperature-dependent luminescence blinking,"
Nature Communications, Nature, vol. 10(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09640-w
DOI: 10.1038/s41467-019-09640-w
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