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Electrical control of single-photon emission in highly charged individual colloidal quantum dots.


ABSTRACT: Electron transfer to an individual quantum dot promotes the formation of charged excitons with enhanced recombination pathways and reduced lifetimes. Excitons with only one or two extra charges have been observed and exploited for very efficient lasing or single-quantum dot light-emitting diodes. Here, by room-temperature time-resolved experiments on individual giant-shell CdSe/CdS quantum dots, we show the electrochemical formation of highly charged excitons containing more than 12 electrons and 1 hole. We report the control over intensity blinking, along with a deterministic manipulation of quantum dot photodynamics, with an observed 210-fold increase in the decay rate, accompanied by 12-fold decrease in the emission intensity, while preserving single-photon emission characteristics. These results pave the way for deterministic control over the charge state, and room-temperature decay rate engineering for colloidal quantum dot-based classical and quantum communication technologies.

SUBMITTER: Morozov S 

PROVIDER: S-EPMC7500932 | biostudies-literature | 2020 Sep

REPOSITORIES: biostudies-literature

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Electrical control of single-photon emission in highly charged individual colloidal quantum dots.

Morozov Sergii S   Pensa Evangelina L EL   Khan Ali Hossain AH   Polovitsyn Anatolii A   Cortés Emiliano E   Maier Stefan A SA   Vezzoli Stefano S   Moreels Iwan I   Sapienza Riccardo R  

Science advances 20200918 38


Electron transfer to an individual quantum dot promotes the formation of charged excitons with enhanced recombination pathways and reduced lifetimes. Excitons with only one or two extra charges have been observed and exploited for very efficient lasing or single-quantum dot light-emitting diodes. Here, by room-temperature time-resolved experiments on individual giant-shell CdSe/CdS quantum dots, we show the electrochemical formation of highly charged excitons containing more than 12 electrons an  ...[more]

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