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Literature DB >> 30569928

Er³⁺-to-Yb³⁺ and Pr³⁺-to-Yb³⁺ energy transfer for highly efficient near-infrared cryogenic optical temperature sensing.

Anna M Kaczmarek¹, Mariusz K Kaczmarek, Rik Van Deun.

Abstract

Here, the very high thermal sensing capability of Er3+,Yb3+ doped LaF3 nanoparticles, where Er3+-to-Yb3+ energy transfer is used, is reported. Also Pr3+,Yb3+ doped LaF3 nanoparticles, with Pr3+-to-Yb3+ energy transfer, showed temperature sensing in the same temperature regime, but with lower performance. The investigated Er3+,Yb3+ doped LaF3 nanoparticles show a remarkably high relative sensitivity Sr of up to 6.6092% K-1 (at 15 K) in the near-infrared (NIR) region, in the cryogenic (15-105 K) temperature region opening a whole new thermometric system suitable for advanced applications in the very low temperature ranges. To date reports on NIR cryogenic sensors have been very scarce.

Entities: Gene

Year: 2019 PMID： 30569928 DOI： 10.1039/c8nr08348g

Source DB: PubMed Journal: Nanoscale ISSN： 2040-3364 Impact factor: 7.790

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Cited

3 in total

1. Fe³⁺-codoped ultra-small NaGdF₄:Nd³⁺ nanophosphors: enhanced near-infrared luminescence, reduced particle size and bioimaging applications.

Authors: Yabing Li; Fujin Li; Yanan Huang; Haiyan Wu; Jian Wang; Jin Yang; Qingbo Xiao; Hongzhen Lin
Journal: RSC Adv Date: 2019-06-10 Impact factor: 4.036

2. NIR luminescence lifetime nanothermometry based on phonon assisted Yb³⁺-Nd³⁺ energy transfer.

Authors: K Maciejewska; A Bednarkiewicz; L Marciniak
Journal: Nanoscale Adv Date: 2021-06-14

3. Exploring the Impact of Structure-Sensitivity Factors on Thermographic Properties of Dy³⁺-Doped Oxide Crystals.

Authors: Radosław Lisiecki; Jarosław Komar; Bogusław Macalik; Michał Głowacki; Marek Berkowski; Witold Ryba-Romanowski
Journal: Materials (Basel) Date: 2021-05-02 Impact factor: 3.623

3 in total

Er3+-to-Yb3+ and Pr3+-to-Yb3+ energy transfer for highly efficient near-infrared cryogenic optical temperature sensing.

1. Fe3+-codoped ultra-small NaGdF4:Nd3+ nanophosphors: enhanced near-infrared luminescence, reduced particle size and bioimaging applications.

2. NIR luminescence lifetime nanothermometry based on phonon assisted Yb3+-Nd3+ energy transfer.

3. Exploring the Impact of Structure-Sensitivity Factors on Thermographic Properties of Dy3+-Doped Oxide Crystals.

Er³⁺-to-Yb³⁺ and Pr³⁺-to-Yb³⁺ energy transfer for highly efficient near-infrared cryogenic optical temperature sensing.

1. Fe³⁺-codoped ultra-small NaGdF₄:Nd³⁺ nanophosphors: enhanced near-infrared luminescence, reduced particle size and bioimaging applications.

2. NIR luminescence lifetime nanothermometry based on phonon assisted Yb³⁺-Nd³⁺ energy transfer.

3. Exploring the Impact of Structure-Sensitivity Factors on Thermographic Properties of Dy³⁺-Doped Oxide Crystals.