Investigation of SrBO:Tm luminescence for temperature imaging with high sensitivity based on time-resolved luminescence

In recent years, with the growing demand for non-contact and real-time optical temperature measurements, it has become imperative to develop new luminescent thermometry materials as well as novel temperature detection schemes with higher sensitivity. In this work, a series of Sr 1− x B 4 O 7 : x Tm...

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Veröffentlicht in:Dalton transactions : an international journal of inorganic chemistry 2024-08, Vol.53 (34), p.14289-14299
Hauptverfasser: Zhang, Qian, Liao, Zhicheng, Qiu, Liting, Wei, Xiantao, Chen, Yonghu, Yin, Min
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Zusammenfassung:In recent years, with the growing demand for non-contact and real-time optical temperature measurements, it has become imperative to develop new luminescent thermometry materials as well as novel temperature detection schemes with higher sensitivity. In this work, a series of Sr 1− x B 4 O 7 : x Tm 2+ ( x = 0.001-0.01) polycrystalline powder samples were prepared using a high temperature solid state reaction under ambient atmospheric conditions. The emission spectra and the luminescence decay curves of the red emission corresponding to the 4f 12 5d → 4f 13 ( 2 F 7/2 ) transition of Tm 2+ were recorded at intervals of 10 K from 280 K to 380 K. Both the emission intensity and the fluorescence lifetime exhibited remarkable temperature correlation in the studied temperature range, which reached the best relative temperature sensitivities of 3.55% K −1 and 3.86% K −1 at 363 K and 346 K, respectively. Furthermore, taking into account the highly sensitive variation of the fluorescence lifetime of Tm 2+ in the SrB 4 O 7 matrix as the temperature increased near room temperature, a time-resolved temperature measurement scheme was performed to realize real-time temperature field imaging. By utilizing the intensified charge coupled device (ICCD) camera with a time gate to acquire the integral intensity of distinct time intervals and calibrate the relationship between the ratio and the temperature, the experimental results demonstrated that this temperature measurement scheme can achieve a maximum relative sensitivity of 9.39% K −1 at 313 K, which significantly surpasses the relative sensitivity of the other two conventional temperature measurement schemes. The temperature sensing based on time-resolved luminescence by employing an ICCD camera was performed to acquire higher sensitivity thermometer and real-time thermal imaging.
ISSN:1477-9226
1477-9234
DOI:10.1039/d4dt01480d