Inorganic-organic perovskites semiconductors are becoming increasingly interesting due to their remarkable optical properties, such as a high photoluminescence quantum yield and the possibility to show optical gain in a broad range of wavelengths. We have here simulated microcavities that embed MaPBI3 and 2D hybrid organic-inorganic perovskite semiconductors by sandwiching such active layers between periodic, aperiodic and disordered photonic structures. The complex refractive index dispersions of MaPBI3 and 2D hybrid organic-inorganic perovskite have been recently reported in literature. Thus, we have carefully considered the refractive index dispersion of all the materials employed, such as silicon dioxide, titanium dioxide, and the aforementioned perovskite layers. Moreover, by employing a photochromatic polymer, namely the diarylethene-based polyester pDTE, we have designed a microcavity with light-induced tuning of the cavity modes is possible.
MaPBI3 and 2D hybrid organic-inorganic perovskite based microcavities employing periodic, aperiodic, and disordered photonic structures with light-induced tuning possibility / Bellingeri, M.; Scotognella, F.. - In: OPTICAL MATERIALS. X. - ISSN 2590-1478. - 12:(2021), pp. 1-5. [10.1016/j.omx.2021.100105]
MaPBI3 and 2D hybrid organic-inorganic perovskite based microcavities employing periodic, aperiodic, and disordered photonic structures with light-induced tuning possibility
Scotognella F.
2021
Abstract
Inorganic-organic perovskites semiconductors are becoming increasingly interesting due to their remarkable optical properties, such as a high photoluminescence quantum yield and the possibility to show optical gain in a broad range of wavelengths. We have here simulated microcavities that embed MaPBI3 and 2D hybrid organic-inorganic perovskite semiconductors by sandwiching such active layers between periodic, aperiodic and disordered photonic structures. The complex refractive index dispersions of MaPBI3 and 2D hybrid organic-inorganic perovskite have been recently reported in literature. Thus, we have carefully considered the refractive index dispersion of all the materials employed, such as silicon dioxide, titanium dioxide, and the aforementioned perovskite layers. Moreover, by employing a photochromatic polymer, namely the diarylethene-based polyester pDTE, we have designed a microcavity with light-induced tuning of the cavity modes is possible.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2985606