Energy transfer characteristics of single-particle NaYF&lt;sub&gt;4&lt;/sub&gt; core-shell structure

Gao, Wei; Zhang, Jingjing; Han, Shanshan; Xing, Yingbin; Shao, Lin; Chen, Binhui; Han, Qingyan; Yan, Xuewen; Zhang, Chengyun; Dong, Jun

doi:10.7498/aps.71.20221454

Acta Phys. Sin.

2022

DOI: 10.7498/aps.71.20221454

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Energy transfer characteristics of single-particle NaYF4 core-shell structure

Wei Gao¹,

Jingjing Zhang²,

Shanshan Han³

et al.

Abstract: The construction of rare-earth doped micro/nano core-shell structure is not only beneficial to enhance the upconversion emission intensity, but also can realize the fine control of luminescence color through the spatial separation of ions. In this work, a series of NaYF4@NaYF4 core-shell (CS) microcrystals doped with different ion concentrations were constructed by means of epitaxial growth technology. The structure and morphology of the prepared microcrystals were… Show more

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2024

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Constructing micro/nano-photonics barcodes based on micro-region upconversion emission spectrum of single core-shell microcrystal

Gao,

Zhang,

Zhang

et al. 2024

Acta Phys. Sin.

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The construction of core-shell structures with different structural properties based on the epitaxial growth technique has become an effective technique for regulating the luminescence properties of micro/nanocrystals. In order to obtain richer spectral information, this work attempts to prepare NaYF4:50%Yb3+/2%Tm3+@NaYF4@ NaYF4:20%Yb3+/2%Er3+@NaYF4@NaYbF4:2%Er3+multilayered core-shell microcry- stals by using multiple epitaxial growth with the introduction of surface modifiers and controlling their reaction conditions. From the XRD and SEM results, it is evident that the core-shell microcrystals possess a pure hexagonal crystal structure in the form of a disk.The microdisk has a thickness of about 2.32 μm with a diameter of about 28.31μm. The upconversion luminescence characteristics of different single microcrystal structures were investigated by a confocal microspectroscopy system. In order to achieve the selective excitation and emission of a single microcrystal, the spatial distribution of luminescent ions can be controlled through the introduction of an intermediate isolation layer. Under 980 nm laser excitation, different excitation sites of the single microdisk exhibit different upconversion emission characteristics. The significant blue (450 nm and 475 nm), red (648 nm) and green (524 nm and 540 nm) emissions are observed, mainly originating from Tm3+ ions and Er3+ radiative transitions. Meanwhile, the red and blue upconversion emission intensities of the microcrystals were improved by using various shell layers. In addition, the luminescence and energy-transfer features of single microcrystals were explored by varying the excitation position. The experimental results demonstrate that the incorporation of NaYF4 inert shells between luminescent layers can regulate luminescence and prevent ion interactions. By utilizing the spectral fingerprint data of dopant ions in various shell layers, we created customizable micro-nano photonic barcodes and employed them for optical anti-counterfeiting detection. This study explores the use of constructed core-shell structures with luminescent tunable micron core-shell structures to achieve diverse spectral information and maintain stability through their structural properties. Thus, this core-shell structure offers a novel approach for utilizing upconversion luminescent microcrystals in micro- and nanophotonics for anti-counterfeiting and display purposes.

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Constructing micro/nano-photonics barcodes based on micro-region upconversion emission spectrum of single core-shell microcrystal

Gao,

Zhang,

Zhang

et al. 2024

Acta Phys. Sin.

View full text Add to dashboard Cite

show abstract

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Energy transfer characteristics of single-particle NaYF<sub>4</sub> core-shell structure

Cited by 1 publication

References 32 publications

Constructing micro/nano-photonics barcodes based on micro-region upconversion emission spectrum of single core-shell microcrystal

Constructing micro/nano-photonics barcodes based on micro-region upconversion emission spectrum of single core-shell microcrystal

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