Inherently Eu2+/Eu3+ Codoped Sc2O3 Nanoparticles as High-Performance Nanothermometers

Yue Pan; Xiaoji Xie; Qianwen Huang; Chao Gao; Yangbo Wang; Lingxiao Wang; Bingxiao Yang; Haiquan Su; Ling Huang; Wei Huang

doi:10.1002/adma.201705256

Inherently Eu²⁺/Eu³⁺ Codoped Sc₂O₃ Nanoparticles as High-Performance Nanothermometers

Yue Pan, Xiaoji Xie, Qianwen Huang, Chao Gao, Yangbo Wang, Lingxiao Wang, Bingxiao Yang, Haiquan Su, Ling Huang, Wei Huang

柔性电子（未来科技）学院|先进材料研究院

科研成果: 期刊稿件 › 文章 › 同行评审

226 引用（Scopus）

摘要

Luminescent nanothermometers have shown competitive superiority for contactless and noninvasive temperature probing especially at the nanoscale. Herein, we report the inherently Eu²⁺/Eu³⁺ codoped Sc₂O₃ nanoparticles synthesized via a one-step and controllable thermolysis reaction where Eu³⁺ is in-situ reduced to Eu²⁺ by oleylamine. The stable luminescence emission of Eu³⁺ as internal standard and the sensitive response of Eu²⁺ emission to temperature as probe comprise a perfect ratiometric nanothermometer with wide-range temperature probing (77–267 K), high repeatability (>99.94%), and high relative sensitivity (3.06% K^–1 at 267 K). The in situ reduction of Eu³⁺ to Eu²⁺ ensures both uniform distribution in the crystal lattice and simultaneous response upon light excitation of Eu²⁺/Eu³⁺. To widen this concept, Tb³⁺ is codoped as additional internal reference for tunable temperature probing range.

源语言	英语
文章编号	1705256
期刊	Advanced Materials
卷	30
期	14
DOI	https://doi.org/10.1002/adma.201705256
出版状态	已出版 - 5 4月 2018

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title = "Inherently Eu2+/Eu3+ Codoped Sc2O3 Nanoparticles as High-Performance Nanothermometers",

abstract = "Luminescent nanothermometers have shown competitive superiority for contactless and noninvasive temperature probing especially at the nanoscale. Herein, we report the inherently Eu2+/Eu3+ codoped Sc2O3 nanoparticles synthesized via a one-step and controllable thermolysis reaction where Eu3+ is in-situ reduced to Eu2+ by oleylamine. The stable luminescence emission of Eu3+ as internal standard and the sensitive response of Eu2+ emission to temperature as probe comprise a perfect ratiometric nanothermometer with wide-range temperature probing (77–267 K), high repeatability (>99.94%), and high relative sensitivity (3.06% K–1 at 267 K). The in situ reduction of Eu3+ to Eu2+ ensures both uniform distribution in the crystal lattice and simultaneous response upon light excitation of Eu2+/Eu3+. To widen this concept, Tb3+ is codoped as additional internal reference for tunable temperature probing range.",

keywords = "Eu, ScO, in situ reduction, nanothermometers",

author = "Yue Pan and Xiaoji Xie and Qianwen Huang and Chao Gao and Yangbo Wang and Lingxiao Wang and Bingxiao Yang and Haiquan Su and Ling Huang and Wei Huang",

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AU - Pan, Yue

AU - Xie, Xiaoji

AU - Huang, Qianwen

AU - Gao, Chao

AU - Wang, Yangbo

AU - Wang, Lingxiao

AU - Yang, Bingxiao

AU - Su, Haiquan

AU - Huang, Ling

AU - Huang, Wei

PY - 2018/4/5

Y1 - 2018/4/5

N2 - Luminescent nanothermometers have shown competitive superiority for contactless and noninvasive temperature probing especially at the nanoscale. Herein, we report the inherently Eu2+/Eu3+ codoped Sc2O3 nanoparticles synthesized via a one-step and controllable thermolysis reaction where Eu3+ is in-situ reduced to Eu2+ by oleylamine. The stable luminescence emission of Eu3+ as internal standard and the sensitive response of Eu2+ emission to temperature as probe comprise a perfect ratiometric nanothermometer with wide-range temperature probing (77–267 K), high repeatability (>99.94%), and high relative sensitivity (3.06% K–1 at 267 K). The in situ reduction of Eu3+ to Eu2+ ensures both uniform distribution in the crystal lattice and simultaneous response upon light excitation of Eu2+/Eu3+. To widen this concept, Tb3+ is codoped as additional internal reference for tunable temperature probing range.

AB - Luminescent nanothermometers have shown competitive superiority for contactless and noninvasive temperature probing especially at the nanoscale. Herein, we report the inherently Eu2+/Eu3+ codoped Sc2O3 nanoparticles synthesized via a one-step and controllable thermolysis reaction where Eu3+ is in-situ reduced to Eu2+ by oleylamine. The stable luminescence emission of Eu3+ as internal standard and the sensitive response of Eu2+ emission to temperature as probe comprise a perfect ratiometric nanothermometer with wide-range temperature probing (77–267 K), high repeatability (>99.94%), and high relative sensitivity (3.06% K–1 at 267 K). The in situ reduction of Eu3+ to Eu2+ ensures both uniform distribution in the crystal lattice and simultaneous response upon light excitation of Eu2+/Eu3+. To widen this concept, Tb3+ is codoped as additional internal reference for tunable temperature probing range.

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Inherently Eu2+/Eu3+ Codoped Sc2O3 Nanoparticles as High-Performance Nanothermometers

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Inherently Eu²⁺/Eu³⁺ Codoped Sc₂O₃ Nanoparticles as High-Performance Nanothermometers