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W3198791838 abstract "Abstract Despite considerable advances in synthesizing high-quality core/shell upconversion (UC) nanocrystals (NC; UCNC) and UCNC photophysics, the application of near-infrared (NIR)-excitable lanthanide-doped UCNC in the life and material sciences is still hampered by the relatively low upconversion luminescence (UCL) of UCNC of small size or thin protecting shell. To obtain deeper insights into energy transfer and surface quenching processes involving Yb 3+ and Er 3+ ions, we examined energy loss processes in differently sized solid core NaYF 4 nanocrystals doped with either Yb 3+ (YbNC; 20% Yb 3+ ) or Er 3+ (ErNC; 2% Er 3+ ) and co-doped with Yb 3+ and Er 3+ (YbErNC; 20% Yb 3+ and 2% Er 3+ ) without a surface protection shell and coated with a thin and a thick NaYF 4 shell in comparison to single and co-doped bulk materials. Luminescence studies at 375 nm excitation demonstrate back-energy transfer (BET) from the 4 G 11/2 state of Er 3+ to the 2 F 5/2 state of Yb 3+ , through which the red Er 3+ 4 F 9/2 state is efficiently populated. Excitation power density ( P )-dependent steady state and time-resolved photoluminescence measurements at different excitation and emission wavelengths enable to separate surface-related and volume-related effects for two-photonic and three-photonic processes involved in UCL and indicate a different influence of surface passivation on the green and red Er 3+ emission. The intensity and lifetime of the latter respond particularly to an increase in volume of the active UCNC core. We provide a three-dimensional random walk model to describe these effects that can be used in the future to predict the UCL behavior of UCNC." @default.
W3198791838 created "2021-09-13" @default.
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W3198791838 date "2021-08-28" @default.
W3198791838 modified "2023-10-16" @default.
W3198791838 title "Volume and surface effects on two-photonic and three-photonic processes in dry co-doped upconversion nanocrystals" @default.
W3198791838 cites W1951350847 @default.
W3198791838 cites W1966500542 @default.
W3198791838 cites W2000533706 @default.
W3198791838 cites W2002095198 @default.
W3198791838 cites W2015680271 @default.
W3198791838 cites W2023654653 @default.
W3198791838 cites W2038668303 @default.
W3198791838 cites W2042234408 @default.
W3198791838 cites W2051036599 @default.
W3198791838 cites W2058682697 @default.
W3198791838 cites W2071089420 @default.
W3198791838 cites W2094392916 @default.
W3198791838 cites W2097532530 @default.
W3198791838 cites W2105844099 @default.
W3198791838 cites W2108726551 @default.
W3198791838 cites W2118969052 @default.
W3198791838 cites W2119887057 @default.
W3198791838 cites W2119921496 @default.
W3198791838 cites W2160754013 @default.
W3198791838 cites W2165009030 @default.
W3198791838 cites W2185059056 @default.
W3198791838 cites W2232199395 @default.
W3198791838 cites W2302193819 @default.
W3198791838 cites W2314719402 @default.
W3198791838 cites W2316162944 @default.
W3198791838 cites W2320519176 @default.
W3198791838 cites W2322097996 @default.
W3198791838 cites W2323490048 @default.
W3198791838 cites W2327477922 @default.
W3198791838 cites W2329198855 @default.
W3198791838 cites W2414899169 @default.
W3198791838 cites W2461133553 @default.
W3198791838 cites W2589983485 @default.
W3198791838 cites W2591634444 @default.
W3198791838 cites W2604649118 @default.
W3198791838 cites W2626124809 @default.
W3198791838 cites W2728096136 @default.
W3198791838 cites W2729323031 @default.
W3198791838 cites W2731565351 @default.
W3198791838 cites W2735756674 @default.
W3198791838 cites W2761601695 @default.
W3198791838 cites W2765295483 @default.
W3198791838 cites W2767866521 @default.
W3198791838 cites W2768042106 @default.
W3198791838 cites W2775118121 @default.
W3198791838 cites W2783414626 @default.
W3198791838 cites W2792581401 @default.
W3198791838 cites W2793395340 @default.
W3198791838 cites W2796762905 @default.
W3198791838 cites W2807724082 @default.
W3198791838 cites W2808327815 @default.
W3198791838 cites W2808632617 @default.
W3198791838 cites W2886455538 @default.
W3198791838 cites W2886465159 @default.
W3198791838 cites W2893003169 @default.
W3198791838 cites W2897611543 @default.
W3198791838 cites W2911115990 @default.
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W3198791838 doi "https://doi.org/10.1007/s12274-021-3727-y" @default.
W3198791838 hasPublicationYear "2021" @default.
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