Abstract
We developed a procedure to prepare luminescent LiYF4:Yb/LiYF4 and LiYF4:Yb,Er/LiYF4 core/shell nanocrystals with a size of approximately 40 nm revealing luminescence decay times of the dopant ions that approach those of high-quality laser crystals of LiYF4:Yb (Yb:YLF) and LiYF4:Yb,Er (Yb,Er:YLF) with identical doping concentrations. As the luminescence decay times of Yb3+ and Er3+ are known to be very sensitive to the presence of quenchers, the long decay times of the core/shell nanocrystals indicate a very low number of defects in the core particles and at the core/shell interfaces. This improvement in the performance was achieved by introducing two important modifications in the commonly used oleic acid based synthesis. First, the shell was prepared via a newly developed method characterized by a very low nucleation rate for particles of pure LiYF4 shell material. Second, anhydrous acetates were used as precursors and additional drying steps were applied to reduce the incorporation of OH− in the crystal lattice, known to quench the emission of Yb3+ ions. Excitation power density (P)-dependent absolute measurements of the upconversion luminescence quantum yield (ΦUC) of LiYF4:Yb,Er/LiYF4 core/shell particles reveal a maximum value of 1.25% at P of 180 Wcm−2. Although lower than the values reported for NaYF4:18%Yb,2%Er core/shell nanocrystals with comparable sizes, these ΦUC values are the highest reported so far for LiYF4:18%Yb,2%Er/LiYF4 nanocrystals without additional dopants. Further improvements may nevertheless be possible by optimizing the dopant concentrations in the LiYF4 nanocrystals.
Highlights
IntroductionLiYF4 and -NaYF4 are well-known host lattices for luminescent lanthanide ions owing to their large bandgap and low phonon frequencies, providing the necessary transparency for the luminescence of the dopant ions in the ultraviolet (UV), visible (vis) and near infrared (NIR) and minimizing internal luminescence quenching processes related to multiphonon relaxation (MPR) [1,2,3,4,5,6,7,8,9]
We developed a procedure to prepare luminescent LiYF4:Yb/LiYF4 and LiYF4:Yb,Er/LiYF4 core/shell nanocrystals with a size of approximately 40 nm revealing luminescence decay times of the dopant ions that approach those of high-quality laser crystals of LiYF4:Yb (Yb:YLF) and LiYF4:Yb,Er (Yb,Er:YLF) with identical doping concentrations
LiYF4 and -NaYF4 are well-known host lattices for luminescent lanthanide ions owing to their large bandgap and low phonon frequencies, providing the necessary transparency for the luminescence of the dopant ions in the ultraviolet (UV), visible and near infrared (NIR) and minimizing internal luminescence quenching processes related to multiphonon relaxation (MPR) [1,2,3,4,5,6,7,8,9]
Summary
LiYF4 and -NaYF4 are well-known host lattices for luminescent lanthanide ions owing to their large bandgap and low phonon frequencies, providing the necessary transparency for the luminescence of the dopant ions in the ultraviolet (UV), visible (vis) and near infrared (NIR) and minimizing internal luminescence quenching processes related to multiphonon relaxation (MPR) [1,2,3,4,5,6,7,8,9]. Since the particles have a small size and display a relatively strong luminescence, they have been proposed for a variety of biomedical and bioimaging applications [79, 80, 83, 87], as well as for transparent displays [70, 74] and chemosensing [86]. Due to their large surfaceto-volume ratio, surface quenching of the luminescence presents a severe problem, often reducing the photoluminescence quantum yield of the nanocrystals by several orders of magnitude compared to the bulk material. The lattice mismatch between an undoped LiYF4 shell and the doped LiYF4 core
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