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W4385655315 abstract "Gaining in-depth insights into the photophysical properties of doped semiconductor nanocrystals or quantum dots (QDs, d-dots) is essential for controlling the dopant-mediated functionalities of QDs. However, the lack of an atomically precise local-coordination environment at the doping sites renders atomic-scale investigation of the dopant-related photophysical properties within d-dots considerably challenging. Instead, the current understanding is limited to the average number or relative positions of dopants in a single d-dot. Structurally well-defined metal chalcogenide supertetrahedral clusters, which conceptually are regular tetrahedral nanofragments of II–VI QDs and feature precise manganese doping sites, were selected as ideal models to study the local-manganese-environment-related photophysical properties. Herein, supertetrahedral clusters were released from the original crystal lattice into solution as surfactant-encapsulated complexes, providing a new perspective on external environments to explore the influence of superlattice confinement on photophysical properties. Photoluminescence characterization indicates that both local-dopant environments (i.e., local manganese concentration) and external environments (i.e., superlattice confinement) significantly affect the lattice strain within clusters, which in turn effectively alters the emission of manganese ions. Additionally, with highly local manganese concentration, energy transfer from the host to the manganese dopant and Mn–Mn exchange coupling interactions were directly observed using ultrafast spectroscopy. This study unravels the effects of the environments on the photoluminescence and excited-state dynamics of semiconductor clusters where manganese is located at the atomic level, providing an ideal reference model for subsequent studies related to the precise nanochemistry of II–III–VI d-dots." @default.
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W4385655315 date "2023-08-08" @default.
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W4385655315 title "Atomic-Level Insights into Manganese-Environment-Related Photophysical Properties of II–III–VI Quantum Dots Using Well-Defined Nanofragments" @default.
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W4385655315 doi "https://doi.org/10.1021/acs.jpcc.3c03940" @default.
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