Importance of the Mixing and High-Temperature Heating Steps in the Controlled Thermal Coprecipitation Synthesis of Sub-5-nm Na(Gd-Yb)F                         4                         :Tm

Baptiste Amouroux; Clément Roux; Jean Daniel Marty; Mathieu Pasturel; Aude Bouchet; Michel Sliwa; Olivier Leroux; Fabienne Gauffre; Christophe Coudret

doi:10.1021/acs.inorgchem.9b00143

Importance of the Mixing and High-Temperature Heating Steps in the Controlled Thermal Coprecipitation Synthesis of Sub-5-nm Na(Gd-Yb)F ₄ :Tm

Baptiste Amouroux
, Clément Roux
, Jean Daniel Marty
, Mathieu Pasturel
, Aude Bouchet
, Michel Sliwa
, Olivier Leroux
, Fabienne Gauffre
, Christophe Coudret

Université Paul-Sabatier
University of Rennes
Université de Lille
Anton Paar TriTec SA

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

In order to achieve a significant size reduction to get ultrasmall upconverting nanoparticles (UCNPs) following a thermal coprecipitation pathway, we identified two critical points: the UCNP precursor mixing and high-temperature heating steps. Significant differences could be observed according to the way the inorganic sodium and fluoride sources were mixed to the rare-earth oleate before the high-temperature heating step. More interestingly, accurate monitoring of the high-temperature heating step using microwave (MW) dielectric heating yielded major improvement toward ultrasmall UCNPs. Thus, hexagonal, Tm-doped sub-5-nm UCNPs with an unusual Na(Yb-Gd)F ₄ matrix with 53% Yb were produced, displaying satisfactory luminescence. Noticeably, MW heating was achieved in a weakly MW-absorbing oleic acid (OA)/octadecene mixture, and the influence of the OA content composition on the MW heating efficiency is discussed in this report.

langue originale	Anglais
Pages (de - à)	5082-5088
Nombre de pages	7
journal	Inorganic Chemistry
Volume	58
Numéro de publication	8
Les DOIs	https://doi.org/10.1021/acs.inorgchem.9b00143
état	Publié - 15 avr. 2019
Modification externe	Oui

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10.1021/acs.inorgchem.9b00143

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Amouroux, B., Roux, C., Marty, J. D., Pasturel, M., Bouchet, A., Sliwa, M., Leroux, O., Gauffre, F., & Coudret, C. (2019). Importance of the Mixing and High-Temperature Heating Steps in the Controlled Thermal Coprecipitation Synthesis of Sub-5-nm Na(Gd-Yb)F ₄ :Tm Inorganic Chemistry, 58(8), 5082-5088. https://doi.org/10.1021/acs.inorgchem.9b00143

@article{898796fea29346b58c5fb9c966ce05d0,

title = " Importance of the Mixing and High-Temperature Heating Steps in the Controlled Thermal Coprecipitation Synthesis of Sub-5-nm Na(Gd-Yb)F 4 :Tm ",

abstract = " In order to achieve a significant size reduction to get ultrasmall upconverting nanoparticles (UCNPs) following a thermal coprecipitation pathway, we identified two critical points: the UCNP precursor mixing and high-temperature heating steps. Significant differences could be observed according to the way the inorganic sodium and fluoride sources were mixed to the rare-earth oleate before the high-temperature heating step. More interestingly, accurate monitoring of the high-temperature heating step using microwave (MW) dielectric heating yielded major improvement toward ultrasmall UCNPs. Thus, hexagonal, Tm-doped sub-5-nm UCNPs with an unusual Na(Yb-Gd)F 4 matrix with 53\% Yb were produced, displaying satisfactory luminescence. Noticeably, MW heating was achieved in a weakly MW-absorbing oleic acid (OA)/octadecene mixture, and the influence of the OA content composition on the MW heating efficiency is discussed in this report.",

author = "Baptiste Amouroux and Cl{\'e}ment Roux and Marty, \{Jean Daniel\} and Mathieu Pasturel and Aude Bouchet and Michel Sliwa and Olivier Leroux and Fabienne Gauffre and Christophe Coudret",

note = "Publisher Copyright: {\textcopyright} 2019 American Chemical Society.",

year = "2019",

month = apr,

day = "15",

doi = "10.1021/acs.inorgchem.9b00143",

language = "English",

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Amouroux, B, Roux, C, Marty, JD, Pasturel, M, Bouchet, A, Sliwa, M, Leroux, O, Gauffre, F & Coudret, C 2019, ' Importance of the Mixing and High-Temperature Heating Steps in the Controlled Thermal Coprecipitation Synthesis of Sub-5-nm Na(Gd-Yb)F ₄ :Tm ', Inorganic Chemistry, VOL. 58, Numéro 8, p. 5082-5088. https://doi.org/10.1021/acs.inorgchem.9b00143

Importance of the Mixing and High-Temperature Heating Steps in the Controlled Thermal Coprecipitation Synthesis of Sub-5-nm Na(Gd-Yb)F ₄ :Tm . / Amouroux, Baptiste; Roux, Clément; Marty, Jean Daniel et al.
Dans: Inorganic Chemistry, Vol 58, Numéro 8, 15.04.2019, p. 5082-5088.

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

TY - JOUR

T1 - Importance of the Mixing and High-Temperature Heating Steps in the Controlled Thermal Coprecipitation Synthesis of Sub-5-nm Na(Gd-Yb)F 4 :Tm

AU - Amouroux, Baptiste

AU - Roux, Clément

AU - Marty, Jean Daniel

AU - Pasturel, Mathieu

AU - Bouchet, Aude

AU - Sliwa, Michel

AU - Leroux, Olivier

AU - Gauffre, Fabienne

AU - Coudret, Christophe

PY - 2019/4/15

Y1 - 2019/4/15

N2 - In order to achieve a significant size reduction to get ultrasmall upconverting nanoparticles (UCNPs) following a thermal coprecipitation pathway, we identified two critical points: the UCNP precursor mixing and high-temperature heating steps. Significant differences could be observed according to the way the inorganic sodium and fluoride sources were mixed to the rare-earth oleate before the high-temperature heating step. More interestingly, accurate monitoring of the high-temperature heating step using microwave (MW) dielectric heating yielded major improvement toward ultrasmall UCNPs. Thus, hexagonal, Tm-doped sub-5-nm UCNPs with an unusual Na(Yb-Gd)F 4 matrix with 53% Yb were produced, displaying satisfactory luminescence. Noticeably, MW heating was achieved in a weakly MW-absorbing oleic acid (OA)/octadecene mixture, and the influence of the OA content composition on the MW heating efficiency is discussed in this report.

AB - In order to achieve a significant size reduction to get ultrasmall upconverting nanoparticles (UCNPs) following a thermal coprecipitation pathway, we identified two critical points: the UCNP precursor mixing and high-temperature heating steps. Significant differences could be observed according to the way the inorganic sodium and fluoride sources were mixed to the rare-earth oleate before the high-temperature heating step. More interestingly, accurate monitoring of the high-temperature heating step using microwave (MW) dielectric heating yielded major improvement toward ultrasmall UCNPs. Thus, hexagonal, Tm-doped sub-5-nm UCNPs with an unusual Na(Yb-Gd)F 4 matrix with 53% Yb were produced, displaying satisfactory luminescence. Noticeably, MW heating was achieved in a weakly MW-absorbing oleic acid (OA)/octadecene mixture, and the influence of the OA content composition on the MW heating efficiency is discussed in this report.

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Amouroux B, Roux C, Marty JD, Pasturel M, Bouchet A, Sliwa M et al. Importance of the Mixing and High-Temperature Heating Steps in the Controlled Thermal Coprecipitation Synthesis of Sub-5-nm Na(Gd-Yb)F ₄ :Tm Inorganic Chemistry. 2019 avr. 15;58(8):5082-5088. doi: 10.1021/acs.inorgchem.9b00143

Importance of the Mixing and High-Temperature Heating Steps in the Controlled Thermal Coprecipitation Synthesis of Sub-5-nm Na(Gd-Yb)F 4 :Tm

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Contient cette citation

Importance of the Mixing and High-Temperature Heating Steps in the Controlled Thermal Coprecipitation Synthesis of Sub-5-nm Na(Gd-Yb)F ₄ :Tm