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W2752250228 startingPage "3397" @default.
W2752250228 abstract "Many potential applications of quantum dots (QDs) can only be realized once the luminescence from single nanocrystals (NCs) is understood. These applications include the development of quantum logic devices, single-photon sources, long-life LEDs, and single-molecule biolabels. At the single-nanocrystal level, random fluctuations in the QD photoluminescence occur, a phenomenon termed blinking. There are two competing models to explain this blinking: Auger recombination and surface trap induced recombination. Here we use lifetime scaling on core-shell chalcogenide NCs to demonstrate that both types of blinking occur in the same QDs. We prove that Auger-blinking can yield single-exponential on/off times in contrast to earlier work. The surface passivation strategy determines which blinking mechanism dominates. This study summarizes earlier studies on blinking mechanisms and provides some clues that stable single QDs can be engineered for optoelectronic applications." @default.
W2752250228 created "2017-09-15" @default.
W2752250228 creator A5002937608 @default.
W2752250228 creator A5005417773 @default.
W2752250228 creator A5037074086 @default.
W2752250228 creator A5040921685 @default.
W2752250228 creator A5063548589 @default.
W2752250228 date "2018-03-26" @default.
W2752250228 modified "2023-10-17" @default.
W2752250228 title "Two Mechanisms Determine Quantum Dot Blinking" @default.
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W2752250228 doi "https://doi.org/10.1021/acsnano.7b09052" @default.
W2752250228 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29579376" @default.
W2752250228 hasPublicationYear "2018" @default.
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