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W3208321310 endingPage "118550" @default.
W3208321310 startingPage "118550" @default.
W3208321310 abstract "Thermal quenching is one of the essential factors in reducing the efficiency of radiative processes in luminophores of various nature. The emission activity of low dimensional structures is influenced also by multiplicity of parameters that are related to synthesis processes, treatment regimes, etc. In the present work, we have investigated the temperature dependence of photoluminescence caused by exciton and defect-related transitions in ensembles of biocompatible InP/ZnS core/shell nanocrystals with an average size of 2.1 and 2.3 nm. The spread in the positions of energy levels is shown to be due to size distribution of quantum dots in the ensembles under study. For a quantitative analysis of the experimental data, we have proposed a band model accounting for the Gaussian distribution of the thermally activated barriers in the photoluminescence quenching processes. The model offers the thermal escape of an electrons from the core into the shell as the main mechanism for non-radiative decay of excitons. In turn, the quenching of defect-related emission is predominantly brought about through the emptying of the hole capture centers based on dangling phosphorus bonds. We have revealed the correlation between size distributions of quantum dots and scatter of the activation energy of exciton luminescence quenching. The developed approach will give further the possibility to optimize technological regimes and methods for band engineering of indium phosphide-based type-I quantum dots." @default.
W3208321310 created "2021-11-08" @default.
W3208321310 creator A5027096307 @default.
W3208321310 creator A5064456514 @default.
W3208321310 creator A5091453565 @default.
W3208321310 date "2022-02-01" @default.
W3208321310 modified "2023-09-24" @default.
W3208321310 title "Activation energy distribution in thermal quenching of exciton and defect-related photoluminescence of InP/ZnS quantum dots" @default.
W3208321310 cites W1635192356 @default.
W3208321310 cites W1970675513 @default.
W3208321310 cites W1979636746 @default.
W3208321310 cites W1979839609 @default.
W3208321310 cites W1981830549 @default.
W3208321310 cites W1982564571 @default.
W3208321310 cites W1984862783 @default.
W3208321310 cites W1984955928 @default.
W3208321310 cites W1986047426 @default.
W3208321310 cites W1986922216 @default.
W3208321310 cites W1987763890 @default.
W3208321310 cites W1990796785 @default.
W3208321310 cites W1993156626 @default.
W3208321310 cites W2024043479 @default.
W3208321310 cites W2025550305 @default.
W3208321310 cites W2027469825 @default.
W3208321310 cites W2028989544 @default.
W3208321310 cites W2034255416 @default.
W3208321310 cites W2037212721 @default.
W3208321310 cites W2040880138 @default.
W3208321310 cites W2046261097 @default.
W3208321310 cites W2046756243 @default.
W3208321310 cites W2046995109 @default.
W3208321310 cites W2047483059 @default.
W3208321310 cites W2048508858 @default.
W3208321310 cites W2049735821 @default.
W3208321310 cites W2052491407 @default.
W3208321310 cites W2055876936 @default.
W3208321310 cites W2057227523 @default.
W3208321310 cites W2058366845 @default.
W3208321310 cites W2066274387 @default.
W3208321310 cites W2067447912 @default.
W3208321310 cites W2069822265 @default.
W3208321310 cites W2081210574 @default.
W3208321310 cites W2082475629 @default.
W3208321310 cites W2085927028 @default.
W3208321310 cites W2091331436 @default.
W3208321310 cites W2094221095 @default.
W3208321310 cites W2123605247 @default.
W3208321310 cites W2138463916 @default.
W3208321310 cites W2140271020 @default.
W3208321310 cites W2146920179 @default.
W3208321310 cites W2148092984 @default.
W3208321310 cites W2152112796 @default.
W3208321310 cites W2154321074 @default.
W3208321310 cites W2182442850 @default.
W3208321310 cites W2286353836 @default.
W3208321310 cites W2313310983 @default.
W3208321310 cites W2322941234 @default.
W3208321310 cites W2324002132 @default.
W3208321310 cites W2326037964 @default.
W3208321310 cites W2326996470 @default.
W3208321310 cites W2519477853 @default.
W3208321310 cites W2520255436 @default.
W3208321310 cites W2526277432 @default.
W3208321310 cites W2570957661 @default.
W3208321310 cites W2595375943 @default.
W3208321310 cites W2738295504 @default.
W3208321310 cites W2793958190 @default.
W3208321310 cites W2893009808 @default.
W3208321310 cites W2894614846 @default.
W3208321310 cites W2904030089 @default.
W3208321310 cites W2921072361 @default.
W3208321310 cites W2981420275 @default.
W3208321310 cites W2987169179 @default.
W3208321310 cites W3016452436 @default.
W3208321310 cites W3021728127 @default.
W3208321310 cites W3032041480 @default.
W3208321310 cites W3037805063 @default.
W3208321310 cites W3040076197 @default.
W3208321310 cites W3081572869 @default.
W3208321310 cites W3134040072 @default.
W3208321310 cites W777150246 @default.
W3208321310 cites W1974969249 @default.
W3208321310 cites W3104753884 @default.
W3208321310 doi "https://doi.org/10.1016/j.jlumin.2021.118550" @default.
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