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Hauptverfasser: S, Brindhu Malani, Klein, Eugen, Lesyuk, Rostyslav, Klinke, Christian
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2411.02877
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author S, Brindhu Malani
Klein, Eugen
Lesyuk, Rostyslav
Klinke, Christian
author_facet S, Brindhu Malani
Klein, Eugen
Lesyuk, Rostyslav
Klinke, Christian
contents The excellent optoelectronic properties, straightforward synthesis, and robust material stability of quasi-2D metal halide perovskites have made them a hot research topic for optoelectronic devices. In layered organic-inorganic perovskites, the optoelectronic properties are greatly influenced by morphology and quantum confinement, which are crucial for their photodetection performance and offer an excellent tunability tool. Here we investigated the optoelectronic properties and photodetection performance of quasi-2D methylammonium lead bromide perovskites with three different morphologies nanoplatelets, nanosheets, and nanostripes produced by colloidal hot injection technique. The structural and optical characterization reveals the mixed-n phases with varying extents of confinement. Our study shows that nanostripes with the weak confinement effect exhibit superior photodetection performance. They demonstrate highest photoresponsivity, EQE, and detectivity of 183 mA/W, 56 % and 2.9*10^11 Jones respectively. They also show the highest on/off ratio and fastest photoresponse (tau_r=3.4 ms and tau_f=4.3 ms) in comparison to nanoplatelets and nanosheets. Our study will aid in realizing an inexpensive high-performance photodetector based on nanoparticles of quasi-2D perovskites.
format Preprint
id arxiv_https___arxiv_org_abs_2411_02877
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Towards high-performance photodetectors based on quasi-2D Ruddlesden-Popper mixed-n perovskite nanomaterials
S, Brindhu Malani
Klein, Eugen
Lesyuk, Rostyslav
Klinke, Christian
Materials Science
Applied Physics
The excellent optoelectronic properties, straightforward synthesis, and robust material stability of quasi-2D metal halide perovskites have made them a hot research topic for optoelectronic devices. In layered organic-inorganic perovskites, the optoelectronic properties are greatly influenced by morphology and quantum confinement, which are crucial for their photodetection performance and offer an excellent tunability tool. Here we investigated the optoelectronic properties and photodetection performance of quasi-2D methylammonium lead bromide perovskites with three different morphologies nanoplatelets, nanosheets, and nanostripes produced by colloidal hot injection technique. The structural and optical characterization reveals the mixed-n phases with varying extents of confinement. Our study shows that nanostripes with the weak confinement effect exhibit superior photodetection performance. They demonstrate highest photoresponsivity, EQE, and detectivity of 183 mA/W, 56 % and 2.9*10^11 Jones respectively. They also show the highest on/off ratio and fastest photoresponse (tau_r=3.4 ms and tau_f=4.3 ms) in comparison to nanoplatelets and nanosheets. Our study will aid in realizing an inexpensive high-performance photodetector based on nanoparticles of quasi-2D perovskites.
title Towards high-performance photodetectors based on quasi-2D Ruddlesden-Popper mixed-n perovskite nanomaterials
topic Materials Science
Applied Physics
url https://arxiv.org/abs/2411.02877