High sensitive luminescence thermometer using Ruphen-based temperature sensitive paint

Li，Song1,2; Zhai，Yufei3; Pan，Xiaoying3; Jin，Ying3; Wang，Min3,4

2022-06-01

10.1016/j.infrared.2022.104151

INFRARED PHYSICS & TECHNOLOGY   影响因子和分区

1350-4495

1879-0275

The accurate temperature measurement with micrometric spatial resolution is difficult to acquire by using conventional contact thermal probes. Noncontact thermal probes possess great potential for future high resolution accurate temperature measurements. Herein, we report a thermometer based on Ruphen-based temperature sensitive paint (TSP) for high-sensitive remote temperature measurement. TSP consisting of Ruphen and PVDF with sharp emission band and high internal quantum efficiency was designed and employed to fabricate a luminescence thermometer prototype for infrared-to-visible converter in this study. The temperature dependent photoluminescence properties of the different Ruphen/PVDF films were analyzed in the range of 283 K to 363 K, and a relatively high thermal sensitivity (−4.3 %K @ RT) was obtained for low Ruphen concentration sample. The as-fabricated temperature sensor prototype can detect a 623 K thermal object with a response time of 1.52 s and a noise equivalent temperature difference (NETD) of 2.40 K. Furthermore, the effect of IR absorber on the imaging performance was also investigated, and an optimized response time of 1.17 s and NETD of 1.68 K were observed. The results indicate that Ruphen/PVDF film is promising for a luminescence thermometer for room temperature mapping.

Optical temperature sensing Ruthenium complex Temperature-sensitive paints Thermal imaging Thermal quenching

SCI ; EI

英语

通讯

Natural Science Foundation of Guangdong Province[2018A030310123];National Natural Science Foundation of China[61805114];

Instruments & Instrumentation ; Optics ; Physics

Instruments & Instrumentation ; Optics ; Physics, Applied

WOS:000792731300005

ELSEVIER

20221411917838

Infrared imaging ; Luminescence ; Paint ; Probes ; Ruthenium compounds ; Temperature measurement ; Temperature sensors

Light/Optics:741.1 ; Imaging Techniques:746 ; Coating Materials:813.2 ; Temperature Measuring Instruments:944.5 ; Temperature Measurements:944.6

PHYSICS

2-s2.0-85127514516

Scopus

1.Harbin institute of Technology,Heilongjiang,150090,China
2.Department of Mechanics and Aerospace Engineering,Southern University of Science and Technology,Shenzhen,518055,China
3.School of Microelectronics,Southern University of Science and Technology,Shenzhen,518055,China
4.Engineering Research Center of Integrated Circuits for Next-Generation Communications,Ministry of Education,Southern University of Science and Technology,Shenzhen,518055,China

Li，Song,Zhai，Yufei,Pan，Xiaoying,et al. High sensitive luminescence thermometer using Ruphen-based temperature sensitive paint[J]. INFRARED PHYSICS & TECHNOLOGY,2022,123.

Li，Song,Zhai，Yufei,Pan，Xiaoying,Jin，Ying,&Wang，Min.(2022).High sensitive luminescence thermometer using Ruphen-based temperature sensitive paint.INFRARED PHYSICS & TECHNOLOGY,123.

Li，Song,et al."High sensitive luminescence thermometer using Ruphen-based temperature sensitive paint".INFRARED PHYSICS & TECHNOLOGY 123(2022).