Revealing the in situ NaF generation balance for user-friendly controlled synthesis of sub-10 nm monodisperse low-level Gd(3+)-doped β-NaYbF(4):Er

Herein, user-friendly control of the synthesis of sub-10 nm hexagonal (β-) NaYbF(4):Er nanocrystals (NCs) with extremely low-level Gd(3+) doping (0%, 10 mol%) was achieved. We reveal for the first time that the effective sodium/fluoride levels during the formation of cubic (α-) nuclei are not only c...

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Autores principales: Shen, Ji-Wei, Wang, Zhiqing, Wei, Xiaoxuan, Liu, Jiawei, Wei, Yinmao
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2018
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9078726/
https://www.ncbi.nlm.nih.gov/pubmed/35540812
http://dx.doi.org/10.1039/c8ra00655e
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author Shen, Ji-Wei
Wang, Zhiqing
Wei, Xiaoxuan
Liu, Jiawei
Wei, Yinmao
author_facet Shen, Ji-Wei
Wang, Zhiqing
Wei, Xiaoxuan
Liu, Jiawei
Wei, Yinmao
author_sort Shen, Ji-Wei
collection PubMed
description Herein, user-friendly control of the synthesis of sub-10 nm hexagonal (β-) NaYbF(4):Er nanocrystals (NCs) with extremely low-level Gd(3+) doping (0%, 10 mol%) was achieved. We reveal for the first time that the effective sodium/fluoride levels during the formation of cubic (α-) nuclei are not only controlled by the sodium/fluoride to rare-earth precursor ratios used, but also sensitively restricted by the in situ NaF generation reaction in a sodium oleate-based solvothermal system. Excessive in situ NaF generation will lead to a respective sodium- and fluoride-deficient environment, delayed α-to-β transition and larger β-NCs. Based on these effects, sub-10 nm monodisperse low-level Gd(3+)-doped β-NaYbF(4):Er was obtained with a user-friendly low fluoride dosage by finely balancing this NaF generation reaction and achieving an intrinsic optimized sodium-fluoride level for NC nucleation. Notably, our work represents the first example where the focus is on the competing in situ NaF generation reaction and its use for nucleation regulation, as well as for the user-friendly control of the solvothermal synthesis of sub-10 nm β-NaYbF(4):Er.
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spelling pubmed-90787262022-05-09 Revealing the in situ NaF generation balance for user-friendly controlled synthesis of sub-10 nm monodisperse low-level Gd(3+)-doped β-NaYbF(4):Er Shen, Ji-Wei Wang, Zhiqing Wei, Xiaoxuan Liu, Jiawei Wei, Yinmao RSC Adv Chemistry Herein, user-friendly control of the synthesis of sub-10 nm hexagonal (β-) NaYbF(4):Er nanocrystals (NCs) with extremely low-level Gd(3+) doping (0%, 10 mol%) was achieved. We reveal for the first time that the effective sodium/fluoride levels during the formation of cubic (α-) nuclei are not only controlled by the sodium/fluoride to rare-earth precursor ratios used, but also sensitively restricted by the in situ NaF generation reaction in a sodium oleate-based solvothermal system. Excessive in situ NaF generation will lead to a respective sodium- and fluoride-deficient environment, delayed α-to-β transition and larger β-NCs. Based on these effects, sub-10 nm monodisperse low-level Gd(3+)-doped β-NaYbF(4):Er was obtained with a user-friendly low fluoride dosage by finely balancing this NaF generation reaction and achieving an intrinsic optimized sodium-fluoride level for NC nucleation. Notably, our work represents the first example where the focus is on the competing in situ NaF generation reaction and its use for nucleation regulation, as well as for the user-friendly control of the solvothermal synthesis of sub-10 nm β-NaYbF(4):Er. The Royal Society of Chemistry 2018-03-06 /pmc/articles/PMC9078726/ /pubmed/35540812 http://dx.doi.org/10.1039/c8ra00655e Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by-nc/3.0/
spellingShingle Chemistry
Shen, Ji-Wei
Wang, Zhiqing
Wei, Xiaoxuan
Liu, Jiawei
Wei, Yinmao
Revealing the in situ NaF generation balance for user-friendly controlled synthesis of sub-10 nm monodisperse low-level Gd(3+)-doped β-NaYbF(4):Er
title Revealing the in situ NaF generation balance for user-friendly controlled synthesis of sub-10 nm monodisperse low-level Gd(3+)-doped β-NaYbF(4):Er
title_full Revealing the in situ NaF generation balance for user-friendly controlled synthesis of sub-10 nm monodisperse low-level Gd(3+)-doped β-NaYbF(4):Er
title_fullStr Revealing the in situ NaF generation balance for user-friendly controlled synthesis of sub-10 nm monodisperse low-level Gd(3+)-doped β-NaYbF(4):Er
title_full_unstemmed Revealing the in situ NaF generation balance for user-friendly controlled synthesis of sub-10 nm monodisperse low-level Gd(3+)-doped β-NaYbF(4):Er
title_short Revealing the in situ NaF generation balance for user-friendly controlled synthesis of sub-10 nm monodisperse low-level Gd(3+)-doped β-NaYbF(4):Er
title_sort revealing the in situ naf generation balance for user-friendly controlled synthesis of sub-10 nm monodisperse low-level gd(3+)-doped β-naybf(4):er
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9078726/
https://www.ncbi.nlm.nih.gov/pubmed/35540812
http://dx.doi.org/10.1039/c8ra00655e
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