Niusha Bagheri scite author profile

Lanthanide upconversion nanoparticles (UCNPs) have been extensively explored as biomarkers, energy transducers, and information carriers in wide-ranging applications in areas from healthcare and energy to information technology. In promoting the brightness and enriching the functionalities of UCNPs, core–shell structural engineering has been well-established as an important approach. Despite its importance, a strong limiting issue has been identified, namely, cation intermixing in the interfacial region of the synthesized core–shell nanoparticles. Currently, there still exists confusion regarding this destructive phenomenon and there is a lack of facile means to reach a delicate control of it. By means of a new set of experiments, we identify and provide in this work a comprehensive picture for the major physical mechanism of cation intermixing occurring in synthesis of core–shell UCNPs, i.e., partial or substantial core nanoparticle dissolution followed by epitaxial growth of the outer layer and ripening of the entire particle. Based on this picture, we provide an easy but effective approach to tackle this issue that enables us to produce UCNPs with highly boosted optical properties.

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Low-lying excited state energy trap induced by cross-relaxation – The main origin of concentration quenching in lanthanide upconversion nanoparticles

Huang

Bagheri

Wang

et al. 2023

Journal of Alloys and Compounds

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Niusha Bagheri

Characterization and doping effects study of high hole concentration Li-doped ZnO thin film prepared by sol–gel method

Change in the emission saturation and kinetics of upconversion nanoparticles under different light irradiations

Suppression of Cation Intermixing Highly Boosts the Performance of Core–Shell Lanthanide Upconversion Nanoparticles

Low-lying excited state energy trap induced by cross-relaxation – The main origin of concentration quenching in lanthanide upconversion nanoparticles

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