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Biexciton Blinking in CdSe-Based Quantum Dots

Sander J. W. Vonk, Freddy T. Rabouw

2023The Journal of Physical Chemistry Letters11 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Experiments on single colloidal quantum dots (QDs) have revealed temporal fluctuations in the emission efficiency of the single-exciton state. These fluctuations, often termed “blinking”, are caused by opening/closing of charge-carrier traps and/or charging/discharging of the QD. In the regime of strong optical excitation, multiexciton states are formed. The emission efficiencies of multiexcitons are lower because of Auger processes, but a quantitative characterization is challenging. Here, we quantify fluctuations of the biexciton efficiency for single CdSe/CdS/ZnS core–shell QDs. We find that the biexciton efficiency “blinks” significantly. The additional electron due to charging of a QD accelerates Auger recombination by a factor of 2 compared to the neutral biexciton, while opening/closing of a charge-carrier trap leads to an increase of the nonradiative recombination rate by a factor of 4. To understand the fast rate of trap-assisted recombination, we propose a revised model for trap-assisted recombination based on reversible trapping. Finally, we discuss the implications of biexciton blinking for lasing applications.

Topics & Concepts

BiexcitonQuantum dotAuger effectExcitonLasing thresholdRecombinationAtomic physicsElectronCharge (physics)Spontaneous emissionMaterials scienceExcitationPhysicsMolecular physicsAugerOptoelectronicsChemistryLaserCondensed matter physicsOpticsQuantum mechanicsWavelengthGeneBiochemistryQuantum Dots Synthesis And PropertiesChalcogenide Semiconductor Thin FilmsPerovskite Materials and Applications
Biexciton Blinking in CdSe-Based Quantum Dots | Litcius