Bright nonblinking photoluminescence with blinking lifetime from a nanocavity-coupled quantum dot

Colloidal semiconductor quantum dots (QDs) are excellent luminescent nanomaterials for a broad range of optoelectronic applications. Their photoluminescence blinking, however, hinders their practical use in many aspects. It has been shown that coupling QDs to plasmonic nanostructures may provide a v...

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Veröffentlicht in:	arXiv.org 2023-11
Hauptverfasser:	Wang, Zhiyuan, Tang, Jianwei, Han, Jiahao, Xia, Juan, Ma, Tianzi, Xue-Wen, Chen
Format:	Artikel
Sprache:	eng
Schlagworte:	Augers Blinking Coupling Decay rate Electrons Excitons Nanomaterials Optoelectronics Photoluminescence Physics - Optics Physics - Quantum Physics Plasmonics Quantum dots
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creator	Wang, Zhiyuan Tang, Jianwei Han, Jiahao Xia, Juan Ma, Tianzi Xue-Wen, Chen
description	Colloidal semiconductor quantum dots (QDs) are excellent luminescent nanomaterials for a broad range of optoelectronic applications. Their photoluminescence blinking, however, hinders their practical use in many aspects. It has been shown that coupling QDs to plasmonic nanostructures may provide a viable way to suppress blinking. Nevertheless, the underlying mechanism of blinking suppression remains unclear and debated. Here, by deterministically coupling a single QD to a plasmonic nanocavity, we clarify the mechanism of blinking suppression, and demonstrate unprecedentedly bright emission from a single colloidal QD. In particular, we report for the first time that the coupled system exhibits nonblinking photoluminescence with blinking lifetime, which shows that the elimination of photoluminescence blinking originates from enhanced quantum yield of the charged states. We identify that the radiative decay rate is boosted from (48 ns)-1 to (0.7 ns)-1, which outcompetes Auger processes and enables similar quantum yields for charged and neutral excitons. Moreover, we demonstrate ultrabright photoluminescence of up to 17 million detected photons per second from a single QD. This work sheds new light on the goal of achieving ultrabright nonblinking QDs and may benefit a variety of QD-based applications.
doi_str_mv	10.48550/arxiv.2311.11560
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Their photoluminescence blinking, however, hinders their practical use in many aspects. It has been shown that coupling QDs to plasmonic nanostructures may provide a viable way to suppress blinking. Nevertheless, the underlying mechanism of blinking suppression remains unclear and debated. Here, by deterministically coupling a single QD to a plasmonic nanocavity, we clarify the mechanism of blinking suppression, and demonstrate unprecedentedly bright emission from a single colloidal QD. In particular, we report for the first time that the coupled system exhibits nonblinking photoluminescence with blinking lifetime, which shows that the elimination of photoluminescence blinking originates from enhanced quantum yield of the charged states. We identify that the radiative decay rate is boosted from (48 ns)-1 to (0.7 ns)-1, which outcompetes Auger processes and enables similar quantum yields for charged and neutral excitons. 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subjects	Augers Blinking Coupling Decay rate Electrons Excitons Nanomaterials Optoelectronics Photoluminescence Physics - Optics Physics - Quantum Physics Plasmonics Quantum dots
title	Bright nonblinking photoluminescence with blinking lifetime from a nanocavity-coupled quantum dot
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