2017
DOI: 10.1039/c7nr02449e
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Power-dependent upconversion quantum yield of NaYF4:Yb3+,Er3+ nano- and micrometer-sized particles – measurements and simulations

Abstract: Photophysical studies of nonlinear lanthanide-doped photon upconverting nanoparticles (UCNPs) increasingly used in biophotonics and photovoltaics require absolute measurements of the excitation power density (P)-dependent upconversion luminescence (UCL) and luminescence quantum yields (Φ) for quantifying the material performance, UCL deactivation pathways, and possible enhancement factors. We present here the P-dependence of the UCL spectra, Φ, and slope factors of the different emission bands of representativ… Show more

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Cited by 145 publications
(173 citation statements)
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“…[4][5][6][7][8][9][10][11][12][13] To date, the mostf requently studied UCNPs consist of hexagonal closed packed (hcp) b-NaYF 4 crystal host lattice co-dopedw ith as ensitizer-activator combination of Ln 3 + ions (primarily Yb 3 + combined with Er 3 + ,T m 3 + ,o rH o 3 + as activator ions). [14][15][16][17][18][19][20][21][22][23][24] Despite the fact that progress has been made in the synthesis of lanthanide-doped UCNPs, scalable size-controlled production of phase-pure b-NaYF 4 nanocrystals still remains ag reat challenge.I np articular,r eproducible synthetic routes that can provide accesst os ub-10 nm nanocrystals with strictly controlled morphology,h igh crystal phasep urity,a nd exceptional upconversion (UC) luminescence are highly desirable. Reported methodsf or the synthesis of hcp b-NaYF 4 particlesw ith diameters below 10 nm mostly rely on the use of additives such as Gd 3 + and Eu 3 + ion in high concentrations.…”
Section: Introductionmentioning
confidence: 99%
“…[4][5][6][7][8][9][10][11][12][13] To date, the mostf requently studied UCNPs consist of hexagonal closed packed (hcp) b-NaYF 4 crystal host lattice co-dopedw ith as ensitizer-activator combination of Ln 3 + ions (primarily Yb 3 + combined with Er 3 + ,T m 3 + ,o rH o 3 + as activator ions). [14][15][16][17][18][19][20][21][22][23][24] Despite the fact that progress has been made in the synthesis of lanthanide-doped UCNPs, scalable size-controlled production of phase-pure b-NaYF 4 nanocrystals still remains ag reat challenge.I np articular,r eproducible synthetic routes that can provide accesst os ub-10 nm nanocrystals with strictly controlled morphology,h igh crystal phasep urity,a nd exceptional upconversion (UC) luminescence are highly desirable. Reported methodsf or the synthesis of hcp b-NaYF 4 particlesw ith diameters below 10 nm mostly rely on the use of additives such as Gd 3 + and Eu 3 + ion in high concentrations.…”
Section: Introductionmentioning
confidence: 99%
“…[49].T he calculated h Q values for encapsulated NaYF 4 : Tm 3 + ,Y b 3 + NPs are much lower than the ones for ligand-free or silanized NaYF 4 :Tm 3 + ,Y b 3 + NPs. [50] Arppe et al [48] ;however,they allowed us to confirm the positive shielding effect provided by the selected emulsification/solvent evaporation methodf ollowed by the LbL encapsulationp rocess. Another quantitative parameter used for the characterization of luminescent probes is the quantum yield (QY), defined as the ratio between the number of emitted photonst ot he absorbed ones.…”
Section: Fret-based Interaction Between Ucnps and Vp Moleculesmentioning
confidence: 92%
“…[49].T he calculated h Q values for encapsulated NaYF 4 : Tm 3 + ,Y b 3 + NPs are much lower than the ones for ligand-free or silanized NaYF 4 :Tm 3 + ,Y b 3 + NPs. [50][51][52] There are several papers availablei nt he literature reporting the QY values for different types of up-converting nanomaterials (Table S2, SupportingI nformation) to be in the range of 3a nd 0.0022 %f or core-onlyc olloidal NaYF 4 NPs with sizes over 100 nm and below 10 nm, respectively. Corresponding values for red (800 nm) Tm 3 + ion upconverted emission were equal to approximately % 57 and % 66 %.…”
Section: Fret-based Interaction Between Ucnps and Vp Moleculesmentioning
confidence: 99%
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