Low Temperature Optical Properties of Novel Lead‐Free Cs<sub>2</sub>NaFeCl<sub>6</sub> Perovskite Single Crystals-Reference-Cited by-同舟云学术

Low Temperature Optical Properties of Novel Lead‐Free Cs₂NaFeCl₆ Perovskite Single Crystals

Published:2023-04-02 Issue:5 Volume:4 Page:
ISSN:2699-9293
Container-title:Advanced Photonics Research
language:en
Short-container-title:Advanced Photonics Research

Author:

Armer Melina¹^ORCID,Dörflinger Patrick¹^ORCID,Weis Andreas²^ORCID,Büchner Carsten¹,Gottscholl Andreas¹^ORCID,Höcker Julian³^ORCID,Frank Kilian³^ORCID,Nusser Lukas⁴,Sirtl Maximilian T.²^ORCID,Nickel Bert³^ORCID,Bein Thomas²^ORCID,Dyakonov Vladimir¹^ORCID

Affiliation:

1. Experimental Physics 6 and Würzburg-Dresden Cluster of Excellence ct qmat Julius-Maximilian University of Würzburg 97074 Würzburg Germany

2. Department of Chemistry and Centre for NanoScience (CeNS) University of Munich (LMU) 81377 Munich Germany

3. Faculty of physics and CeNS Geschwister-Scholl-Platz 1 University of Munich (LMU) 80539 Munich Germany

4. Department of Chemistry and Pharmacy University of Munich (LMU) 81377 Munich Germany

Abstract

Lead‐free double perovskites have attracted much attention as possible alternatives to lead halide based perovskites in photovoltaic applications. However, to date only few double perovskites have been successfully employed in optoelectronic device prototypes. Therefore, the search for stable and lead‐free materials is ongoing. Here, we present the successful growth of high‐quality Cs2NaFeCl6 single crystals and their temperature‐dependent structural and optical properties. By combining electron paramagnetic resonance (EPR), crystal structure analysis and density functional theory (DFT) we could determine a cubic crystal structure with a spin of 5/2 for this material, showing strongly spin polarized character. Furthermore, combining photoluminescence (PL) and optical absorption measurements we find a bandgap of approximately 2.1 eV at room temperature as well as the presence of excitonic states. Using Elliot's formula, we are able to extract the temperature‐dependent behavior of the bandgap as well as an estimated exciton binding energy of only 20 meV at 80 K.

Publisher

Wiley

Subject

Pharmacology (medical),Complementary and alternative medicine,Pharmaceutical Science

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/adpr.202300017

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