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Slower Auger Recombination in 12-Faceted Dodecahedron CsPbBr<sub>3</sub> Nanocrystals

Supriya Ghosh, Bapi Pradhan, Weihua Lin, Yiyue Zhang, Luca Leoncino, Pavel Chábera, Kaibo Zheng, Eduardo Solano, Johan Hofkens, Tõnu Pullerits

2023The Journal of Physical Chemistry Letters25 citationsDOIOpen Access PDF

Abstract

Over the past two decades, intensive research efforts have been devoted to suppressions of Auger recombination in metal-chalcogenide and perovskite nanocrystals (PNCs) for the application of photovoltaics and light emitting devices (LEDs). Here, we have explored dodecahedron cesium lead bromide perovskite nanocrystals (DNCs), which show slower Auger recombination time compared to hexahedron nanocrystals (HNCs). We investigate many-body interactions that are manifested under high excitation flux density in both NCs using ultrafast spectroscopic pump–probe measurements. We demonstrate that the Auger recombination rate due to multiexciton recombinations are lower in DNCs than in HNCs. At low and intermediate excitation density, the majority of carriers recombine through biexcitonic recombination. However, at high excitation density (>10 18 cm –3 ) a higher number of many-body Auger process dominates over biexcitonic recombination. Compared to HNCs, high PLQY and slower Auger recombinations in DNCs are likely to be significant for the fabrication of highly efficient perovskite-based photonics and LEDs.

Topics & Concepts

Auger effectNanocrystalMaterials scienceAugerLight-emitting diodeChalcogenidePerovskite (structure)PhotovoltaicsOptoelectronicsDodecahedronChemistryAtomic physicsNanotechnologyCrystallographyPhysicsPhotovoltaic systemBiologyEcologyPerovskite Materials and ApplicationsChalcogenide Semiconductor Thin FilmsQuantum Dots Synthesis And Properties
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