Beyond Charge Transfer: The Impact of Auger Recombination and FRET on PL Quenching in an rGO-QDs System

Abstract: PL intensity quenching and the PL lifetime reduction of fluorophores located close to graphene derivatives are generally explained by charge and energy transfer processes. Analyzing the PL from PbS QDs in rGO/QD systems, we observed a substantial reduction in average PL lifetimes with an increase in rGO content that cannot be interpreted solely by these two processes. To explain the PL lifetime dependence on the rGO/QD component ratio, we propose a model based on the Auger recombination of excitations involvin… Show more

“…More specifically, Babaev and co-workers [ 1 ] studied photoexcitation dynamics in thin films composed of reduced graphene oxide and PbS quantum dots, which are of great importance for near-infrared photodetection and solar harvesting. They proposed that, beyond a traditional charge transfer phenomenon, additional mechanisms govern the photoexcitation dynamics.…”

Editorial for Special Issue “Luminescent Colloidal Nanocrystals”

“…More specifically, Babaev and co-workers [ 1 ] studied photoexcitation dynamics in thin films composed of reduced graphene oxide and PbS quantum dots, which are of great importance for near-infrared photodetection and solar harvesting. They proposed that, beyond a traditional charge transfer phenomenon, additional mechanisms govern the photoexcitation dynamics.…”

Editorial for Special Issue “Luminescent Colloidal Nanocrystals”

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