Dual second harmonic generation and up-conversion photoluminescence emission in highly-optimized LiNbO 3 nanocrystals doped and co-doped with Er 3+ and Yb 3

Preparation from the aqueous alkoxide route of doped and co-doped lithium niobate nanocrystals with Er and Yb ions, and detailed investigations of their optical properties are presented in this comprehensive work. Simultaneous emission under femtosecond laser excitation of second harmonic generation...

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Bibliographic Details
Published in:Nanoscale 2024-03, Vol.16 (13), p.6739-6747
Main Authors: Bredillet, K, Riporto, F, Guo, T, Dhouib, A, Multian, V, Monnier, V, Figueras Llussà, P, Beauquis, S, Bonacina, L, Mugnier, Y, Le Dantec, R
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Language:English
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Summary:Preparation from the aqueous alkoxide route of doped and co-doped lithium niobate nanocrystals with Er and Yb ions, and detailed investigations of their optical properties are presented in this comprehensive work. Simultaneous emission under femtosecond laser excitation of second harmonic generation (SHG) and up-conversion photoluminescence (UC-PL) is studied from colloidal suspensions according to the lanthanide ion contents. Special attention has been paid to produce phase pure nanocrystals of constant size (∼20 nm) thus allowing a straightforward comparison and optimization of the Er content for increasing the green UC-PL signals under 800 nm excitation. An optimal molar concentration at about 4 molar% in erbium ions is demonstrated, that is well above the concentration usually achieved in bulk crystals. Similarly, for co-doped LiNbO nanocrystals, different lanthanide concentrations and Yb/Er content ratios are tested allowing optimization of the green and red up-conversion excited at 980 nm, and analysis of the underlying mechanisms from excitation spectra. All together, these findings provide valuable insights into the wet-chemical synthesis and potential of doped and co-doped LiNbO nanocrystals for advanced applications, combining both SHG and UC-PL emissions from the particle core.
ISSN:2040-3364
2040-3372
DOI:10.1039/D4NR00431K