Strategy for thermometry via Tm3+-doped NaYF4 core-shell nanoparticles

Shaoshuai Zhou; Guicheng Jiang; Xinyue Li; Sha Jiang; Xiantao Wei; Yonghu Chen; Min Yin; Changkui Duan

doi:10.1364/OL.39.006687

Strategy for thermometry via Tm³⁺-doped NaYF₄ core-shell nanoparticles

Shaoshuai Zhou
, Guicheng Jiang
, Xinyue Li
, Sha Jiang
, Xiantao Wei
, Yonghu Chen
, Min Yin
, Changkui Duan^*

^*Corresponding author for this work

School of Instrumentation Science and Engineering

University of Science and Technology of China
Chongqing University of Posts and Telecommunications

Research output: Contribution to journal › Article › peer-review

105 Scopus citations

Abstract

Optical thermometers usually make use of the fluorescence intensity ratio of two thermally coupled energy levels, with the relative sensitivity constrained by the limited energy gap. Here we develop a strategy by using the upconversion (UC) emissions originating from two multiplets with opposite temperature dependences to achieve higher relative temperature sensitivity. We show that the intensity ratio of the two UC emissions, ³F₂₃ and ¹G₄, of Tm³⁺ in β-NaYF₄:20%Yb³⁺, 0.5%Tm³⁺/NaYF₄:1%Pr³⁺ core-shell nanoparticles under 980 nm laser excitation exhibits high relative temperature sensitivity between 350 and 510 K, with a maximum of 1.53% K^-1 at 417 K. This demonstrates the validity of the strategy, and that the studied material has the potential for high-performance optical thermometry.

Original language	English
Pages (from-to)	6687-6690
Number of pages	4
Journal	Optics Letters
Volume	39
Issue number	23
DOIs	https://doi.org/10.1364/OL.39.006687
State	Published - 1 Dec 2014

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title = "Strategy for thermometry via Tm3+-doped NaYF4 core-shell nanoparticles",

abstract = "Optical thermometers usually make use of the fluorescence intensity ratio of two thermally coupled energy levels, with the relative sensitivity constrained by the limited energy gap. Here we develop a strategy by using the upconversion (UC) emissions originating from two multiplets with opposite temperature dependences to achieve higher relative temperature sensitivity. We show that the intensity ratio of the two UC emissions, 3F23 and 1G4, of Tm3+ in β-NaYF4:20\%Yb3+, 0.5\%Tm3+/NaYF4:1\%Pr3+ core-shell nanoparticles under 980 nm laser excitation exhibits high relative temperature sensitivity between 350 and 510 K, with a maximum of 1.53\% K-1 at 417 K. This demonstrates the validity of the strategy, and that the studied material has the potential for high-performance optical thermometry.",

author = "Shaoshuai Zhou and Guicheng Jiang and Xinyue Li and Sha Jiang and Xiantao Wei and Yonghu Chen and Min Yin and Changkui Duan",

note = "Publisher Copyright: {\textcopyright} 2014 Optical Society of America.",

year = "2014",

month = dec,

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doi = "10.1364/OL.39.006687",

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TY - JOUR

T1 - Strategy for thermometry via Tm3+-doped NaYF4 core-shell nanoparticles

AU - Zhou, Shaoshuai

AU - Jiang, Guicheng

AU - Li, Xinyue

AU - Jiang, Sha

AU - Wei, Xiantao

AU - Chen, Yonghu

AU - Yin, Min

AU - Duan, Changkui

PY - 2014/12/1

Y1 - 2014/12/1

N2 - Optical thermometers usually make use of the fluorescence intensity ratio of two thermally coupled energy levels, with the relative sensitivity constrained by the limited energy gap. Here we develop a strategy by using the upconversion (UC) emissions originating from two multiplets with opposite temperature dependences to achieve higher relative temperature sensitivity. We show that the intensity ratio of the two UC emissions, 3F23 and 1G4, of Tm3+ in β-NaYF4:20%Yb3+, 0.5%Tm3+/NaYF4:1%Pr3+ core-shell nanoparticles under 980 nm laser excitation exhibits high relative temperature sensitivity between 350 and 510 K, with a maximum of 1.53% K-1 at 417 K. This demonstrates the validity of the strategy, and that the studied material has the potential for high-performance optical thermometry.

AB - Optical thermometers usually make use of the fluorescence intensity ratio of two thermally coupled energy levels, with the relative sensitivity constrained by the limited energy gap. Here we develop a strategy by using the upconversion (UC) emissions originating from two multiplets with opposite temperature dependences to achieve higher relative temperature sensitivity. We show that the intensity ratio of the two UC emissions, 3F23 and 1G4, of Tm3+ in β-NaYF4:20%Yb3+, 0.5%Tm3+/NaYF4:1%Pr3+ core-shell nanoparticles under 980 nm laser excitation exhibits high relative temperature sensitivity between 350 and 510 K, with a maximum of 1.53% K-1 at 417 K. This demonstrates the validity of the strategy, and that the studied material has the potential for high-performance optical thermometry.

UR - https://www.scopus.com/pages/publications/84914693321

U2 - 10.1364/OL.39.006687

DO - 10.1364/OL.39.006687

M3 - 文章

AN - SCOPUS:84914693321

SN - 0146-9592

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SP - 6687

EP - 6690

JO - Optics Letters

JF - Optics Letters

IS - 23

ER -

Strategy for thermometry via Tm³⁺-doped NaYF₄ core-shell nanoparticles

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